IGSF22 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	IGSF22
Entrez Gene ID	283284
Full Name	immunoglobulin superfamily member 22
Synonyms	IGFN2
General protein information	Preferred Names immunoglobulin superfamily member 22 Names immunoglobulin superfamily member 22
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 11 Map Location: 11p15.1

mRNA and Protein(s)

mRNA	Protein	Name
XM_017017607.1	XP_016873096.1	immunoglobulin superfamily member 22 isoform X1
XM_011520030.2	XP_011518332.1	immunoglobulin superfamily member 22 isoform X1
NM_173588.3	NP_775859.3	immunoglobulin superfamily member 22
NM_173588.4	NP_775859.4	immunoglobulin superfamily member 22
XM_011520031.2	XP_011518333.1	immunoglobulin superfamily member 22 isoform X2
XM_017017608.1	XP_016873097.1	immunoglobulin superfamily member 22 isoform X3

Pathways from BioSystems

Homologies

Homo sapiens (human)	IGSF22	NP_775859.3
	IGSF22	XP_001096645.2
Canis lupus familiaris (dog)	IGSF22	XP_542527.3

Gene Ontology
Bibliography

Related articles in PubMed

Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium.
Gaudet P, Livstone MS, Lewis SE, Thomas PD
Briefings in bioinformatics12(5)449-62(2011 Sep)

Diversification of transcriptional modulation: large-scale identification and characterization of putative alternative promoters of human genes.
Kimura K, Wakamatsu A, Suzuki Y, Ota T, Nishikawa T, Yamashita R, Yamamoto J, Sekine M, Tsuritani K, Wakaguri H, Ishii S, Sugiyama T, Saito K, Isono Y, Irie R, Kushida N, Yoneyama T, Otsuka R, Kanda K, Yokoi T, Kondo H, Wagatsuma M, Murakawa K, Ishida S, Ishibashi T, Takahashi-Fujii A, Tanase T, Nagai K, Kikuchi H, Nakai K, Isogai T, Sugano S
Genome research16(1)55-65(2006 Jan)

Complete sequencing and characterization of 21,243 full-length human cDNAs.
Ota T, Suzuki Y, Nishikawa T, Otsuki T, Sugiyama T, Irie R, Wakamatsu A, Hayashi K, Sato H, Nagai K, Kimura K, Makita H, Sekine M, Obayashi M, Nishi T, Shibahara T, Tanaka T, Ishii S, Yamamoto J, Saito K, Kawai Y, Isono Y, Nakamura Y, Nagahari K, Murakami K, Yasuda T, Iwayanagi T, Wagatsuma M, Shiratori A, Sudo H, Hosoiri T, Kaku Y, Kodaira H, Kondo H, Sugawara M, Takahashi M, Kanda K, Yokoi T, Furuya T, Kikkawa E, Omura Y, Abe K, Kamihara K, Katsuta N, Sato K, Tanikawa M, Yamazaki M, Ninomiya K, Ishibashi T, Yamashita H, Murakawa K, Fujimori K, Tanai H, Kimata M, Watanabe M, Hiraoka S, Chiba Y, Ishida S, Ono Y, Takiguchi S, Watanabe S, Yosida M, Hotuta T, Kusano J, Kanehori K, Takahashi-Fujii A, Hara H, Tanase TO, Nomura Y, Togiya S, Komai F, Hara R, Takeuchi K, Arita M, Imose N, Musashino K, Yuuki H, Oshima A, Sasaki N, Aotsuka S, Yoshikawa Y, Matsunawa H, Ichihara T, Shiohata N, Sano S, Moriya S, Momiyama H, Satoh N, Takami S, Terashima Y, Suzuki O, Nakagawa S, Senoh A, Mizoguchi H, Goto Y, Shimizu F, Wakebe H, Hishigaki H, Watanabe T, Sugiyama A, Takemoto M, Kawakami B, Yamazaki M, Watanabe K, Kumagai A, Itakura S, Fukuzumi Y, Fujimori Y, Komiyama M, Tashiro H, Tanigami A, Fujiwara T, Ono T, Yamada K, Fujii Y, Ozaki K, Hirao M, Ohmori Y, Kawabata A, Hikiji T, Kobatake N, Inagaki H, Ikema Y, Okamoto S, Okitani R, Kawakami T, Noguchi S, Itoh T, Shigeta K, Senba T, Matsumura K, Nakajima Y, Mizuno T, Morinaga M, Sasaki M, Togashi T, Oyama M, Hata H, Watanabe M, Komatsu T, Mizushima-Sugano J, Satoh T, Shirai Y, Takahashi Y, Nakagawa K, Okumura K, Nagase T, Nomura N, Kikuchi H, Masuho Y, Yamashita R, Nakai K, Yada T, Nakamura Y, Ohara O, Isogai T, Sugano S
Nature genetics36(1)40-5(2004 Jan)

Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
Strausberg RL, Feingold EA, Grouse LH, Derge JG, Klausner RD, Collins FS, Wagner L, Shenmen CM, Schuler GD, Altschul SF, Zeeberg B, Buetow KH, Schaefer CF, Bhat NK, Hopkins RF, Jordan H, Moore T, Max SI, Wang J, Hsieh F, Diatchenko L, Marusina K, Farmer AA, Rubin GM, Hong L, Stapleton M, Soares MB, Bonaldo MF, Casavant TL, Scheetz TE, Brownstein MJ, Usdin TB, Toshiyuki S, Carninci P, Prange C, Raha SS, Loquellano NA, Peters GJ, Abramson RD, Mullahy SJ, Bosak SA, McEwan PJ, McKernan KJ, Malek JA, Gunaratne PH, Richards S, Worley KC, Hale S, Garcia AM, Gay LJ, Hulyk SW, Villalon DK, Muzny DM, Sodergren EJ, Lu X, Gibbs RA, Fahey J, Helton E, Ketteman M, Madan A, Rodrigues S, Sanchez A, Whiting M, Madan A, Young AC, Shevchenko Y, Bouffard GG, Blakesley RW, Touchman JW, Green ED, Dickson MC, Rodriguez AC, Grimwood J, Schmutz J, Myers RM, Butterfield YS, Krzywinski MI, Skalska U, Smailus DE, Schnerch A, Schein JE, Jones SJ, Marra MA,
Proceedings of the National Academy of Sciences of the United States of America99(26)16899-903(2002 Dec)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following IGSF22 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IGSF22 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu11217	NM_173588.3 Latest version!	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$459.50-$643.30 $919.00
OHu92164	NM_173588.4 Latest version!	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OHu92164	XM_017017608.1 Latest version!	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OHu78569	XM_011520031.2 Latest version!	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu78568	XM_017017607.1 Latest version!	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu78568	XM_011520030.2 Latest version!	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

IGSF22 ( NM_173588.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_775859.3 Homo sapiens immunoglobulin superfamily member 22 (IGSF22), mRNA.

Price & Availability↑

CloneID	OHu11217
Clone ID Related Accession (Same CDS sequence)	NM_173588.3
Accession Version	NM_173588.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3981bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-10-01
Organism	Homo sapiens(human)
Product	immunoglobulin superfamily member 22
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK095113.1, BC115396.1, AC103974.6, BC115397.1, AI952274.1 and AA255875.1. On Jul 15, 2009 this sequence version replaced NM_173588.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGACAACCA TTCACAGCCG GCAGATGCTG CAGGAGCACG TGTCCATGGA GTTCTCCAGC 
TCCACCACCC ACGTGCAGAC CTTCTCCCAG ACAACCAAGA TCGTGGGAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTA TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_775859.3
CDS	191..4171
Translation	MTTIHSRQMLQEHVSMEFSSSTTHVQTFSQTTKIVGEEVVRRKSSSIVEFFSLVTRSSNIPAGDSVPEFVEKPQPVTAPEGDKAVFRARVQGNAKPHISWKRESGIPIKESAKIFYDSINKEHVLKLEPLTSDDSDNYKCIASNDHADAIYTVSLLVTEGQEKMDFKKMLKKRAPPAPKKKQKKVANEKEMLEILSKVPKKDFEKVCMEYGFTDFRGLLRKLKEMKKKVEVEAIRILKPLEDKETKVDTTVVFDCIMELKDPNVKMIWIKGTEPLRIQYSLGKYDVKQMGTKYMLVISNVNMNDAGIYSLSVGDKRMSAELTVLDEPLKFLGEMKPVKVTERQTAVFEIRLSKKEPNFVWKFNGKELKRDDKYEITVSEDGLTHTLKIKDARLSDSGEFSAEAGNLVQKAQLTIDRIPIKFVSNLKNVRVKERSRACLECELTSKDVTLRWKKDGQLLMHGTKYSMNHEGKRAELIIEDAQLSDGGEYTVVAMQDGDPTEYYSTAIVTVEERLATVKSGMSDVHAATGSPAELCVVLNDEKVEGVWLKDGKEITDLPGMQIVKQGAVHKLIFPSMGPEHEGKYTFRAKGTESEASVFIADPPTIDPSVLEALAAHAITVKVGHTAHIKVPFRGKPLPKVTWYKDGMEVTEEERVSMERGEDQALLTISNCVREDSGLILLKLKNDHGSATATLHLSVLDRPKPPQGRVEFLELSGSCVHMKWKAPKDNGGRPVTQFIVERRAVGKKSWIKIGEVDGKVTNFSTNKVEEGKAYQFRILAVNSEGVSDPLETEEVFAGNPIEPPGFASQPQVTDVTKEAVTITWNAPTQDGGAPVLGYIVERRKKGSNLWVPVNKDPIQGTKCTVDGLLEDTEYEFRVIAVNKAGPGQPSVPSSSVVAKDPVKPPGLVQDLHVSDSSNSSISLAWREPAEGDPPSGYILEMRAEDTKEWSKCTKIPISGTCYTVGGLIERQKYFFRIRAVNEAGVGEPVELDKGVRAMPPPAAPKFDLSARLKSHMVVRAGTALCIHAAFSGSPPPDVIWQKDGVPTKGRETITKSKNHSQFLINSTKRSDSGVYRILLQNEFGEARYDIHVRVADFPRPPTNLRLFEEVPNTVTLTWNHSPDVQEDGEAHYIIMKRDASTATWYTAAERVFSNKYTVTGLLPGRKYYFRVVARNEIGDSEPLDSRDTWLINKDQIQDLSAKLKPYEKKDWRHAPRFVTPLKPHTVLRGQDCTMTCAFLGNPRPTVTLYKGDVNITANSKFWYNSTSGVCTLVIPTCTLKDSGDYSVLVENELGKDRSSCTLTVYDKDDKSVVASITESLQKKSKHLM

Target ORF information:

RefSeq Version	NM_173588.3
Organism	Homo sapiens(human)
Definition	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_173588.3

ORF Insert Sequence:

ATGACAACCA TTCACAGCCG GCAGATGCTG CAGGAGCACG TGTCCATGGA GTTCTCCAGC 
TCCACCACCC ACGTGCAGAC CTTCTCCCAG ACAACCAAGA TCGTGGGAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTA TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

IGSF22 ( NM_173588.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_775859.4 Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu92164
Clone ID Related Accession (Same CDS sequence)	NM_173588.4 , XM_017017608.1
Accession Version	NM_173588.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3981bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-01
Organism	Homo sapiens(human)
Product	immunoglobulin superfamily member 22
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC103974.6. On Jan 3, 2019 this sequence version replaced NM_173588.3. Transcript Variant: This variant (1) represents the protein-coding transcript. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGACAACCA TTCACAGCCG GCAGATGCTG CAGGAGCACG TGTCCATGGA GTTCTCCAGC 
TCCACCACCC ACGTGCAGAC CTTCTCCCAG ACAACCAAGA TCGTGGGAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_775859.4
CDS	149..4129
Translation	MTTIHSRQMLQEHVSMEFSSSTTHVQTFSQTTKIVGEEVVRRKSSSIVEFFSLVTRSSNIPAGDSVPEFVEKPQPVTAPEGDKAVFRARVQGNAKPHISWKRESGIPIKESAKIFYDSINKEHVLKLEPLTSDDSDNYKCIASNDHADAIYTVSLLVTEGQEKMDFKKMLKKRAPPAPKKKQKKVANEKEMLEILSKVPKKDFEKVCMEYGFTDFRGLLRKLKEMKKKVEVEAIRILKPLEDKETKVDTTVVFDCIMELKDPNVKMIWIKGTEPLRIQYSLGKYDVKQMGTKYMLVISNVNMNDAGIYSLSVGDKRMSAELTVLDEPLKFLGEMKPVKVTERQTAVFEIRLSKKEPNFVWKFNGKELKRDDKYEITVSEDGLTHTLKIKDARLSDSGEFSAEAGNLVQKAQLTVDRIPIKFVSNLKNVRVKERSRACLECELTSKDVTLRWKKDGQLLMHGTKYSMNHEGKRAELIIEDAQLSDGGEYTVVAMQDGDPTEYYSTAIVTVEERLATVKSGMSDVHAATGSPAELCVVLNDEKVEGVWLKDGKEITDLPGMQIVKQGAVHKLIFPSMGPEHEGKYTFRAKGTESEASVFIADPPTIDPSVLEALAAHAITVKVGHTAHIKVPFRGKPLPKVTWYKDGMEVTEEERVSMERGEDQALLTISNCVREDSGLILLKLKNDHGSATATLHLSVLDRPKPPQGRVEFLELSGSCVHMKWKAPKDNGGRPVTQFIVERRAVGKKSWIKIGEVDGKVTNFSTNKVEEGKAYQFRILAVNSEGVSDPLETEEVFAGNPIEPPGFASQPQVTDVTKEAVTITWNAPTQDGGAPVLGYIVERRKKGSNLWVPVNKDPIQGTKCTVDGLLEDTEYEFRVIAVNKAGPGQPSVPSSSVVAKDPVKPPGLVQDLHVSDSSNSSISLAWREPAEGDPPSGYILEMRAEDTKEWSKCTKIPISGTCYTVGGLIERQKYFFRIRAVNEAGVGEPVELDKGVRAMPPPAAPKFDLSARLKSHMVVRAGTALCIHAAFSGSPPPDVIWQKDGVPTKGRETITKSKNHSQFLINSTKRSDSGVYRILLQNEFGEARYDIHVRVADFPRPPTNLRLFEEVPNTVTLTWNHSPDVQEDGEAHYIIMKRDASTATWYTAAERVFSNKYTVTGLLPGRKYYFRVVARNEIGDSEPLDSRDTWLINKDQIQDLSAKLKPYEKKDWRHAPRFVTPLKPHTVLRGQDCTMTCAFLGNPRPTVTLYKGDVNITANSKFWYNSTSGVCTLVIPTCTLKDSGDYSVLVENELGKDRSSCTLTVYDKDDKSVVASITESLQKKSKHLM

Target ORF information:

RefSeq Version	NM_173588.4
Organism	Homo sapiens(human)
Definition	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_173588.4

ORF Insert Sequence:

ATGACAACCA TTCACAGCCG GCAGATGCTG CAGGAGCACG TGTCCATGGA GTTCTCCAGC 
TCCACCACCC ACGTGCAGAC CTTCTCCCAG ACAACCAAGA TCGTGGGAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

IGSF22 ( XM_017017608.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016873097.1 Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X4, mRNA.

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CloneID	OHu92164
Clone ID Related Accession (Same CDS sequence)	NM_173588.4 , XM_017017608.1
Accession Version	XM_017017608.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3981bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	immunoglobulin superfamily member 22 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAACCA TTCACAGCCG GCAGATGCTG CAGGAGCACG TGTCCATGGA GTTCTCCAGC 
TCCACCACCC ACGTGCAGAC CTTCTCCCAG ACAACCAAGA TCGTGGGAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016873097.1
CDS	1009..4989
Translation	MTTIHSRQMLQEHVSMEFSSSTTHVQTFSQTTKIVGEEVVRRKSSSIVEFFSLVTRSSNIPAGDSVPEFVEKPQPVTAPEGDKAVFRARVQGNAKPHISWKRESGIPIKESAKIFYDSINKEHVLKLEPLTSDDSDNYKCIASNDHADAIYTVSLLVTEGQEKMDFKKMLKKRAPPAPKKKQKKVANEKEMLEILSKVPKKDFEKVCMEYGFTDFRGLLRKLKEMKKKVEVEAIRILKPLEDKETKVDTTVVFDCIMELKDPNVKMIWIKGTEPLRIQYSLGKYDVKQMGTKYMLVISNVNMNDAGIYSLSVGDKRMSAELTVLDEPLKFLGEMKPVKVTERQTAVFEIRLSKKEPNFVWKFNGKELKRDDKYEITVSEDGLTHTLKIKDARLSDSGEFSAEAGNLVQKAQLTVDRIPIKFVSNLKNVRVKERSRACLECELTSKDVTLRWKKDGQLLMHGTKYSMNHEGKRAELIIEDAQLSDGGEYTVVAMQDGDPTEYYSTAIVTVEERLATVKSGMSDVHAATGSPAELCVVLNDEKVEGVWLKDGKEITDLPGMQIVKQGAVHKLIFPSMGPEHEGKYTFRAKGTESEASVFIADPPTIDPSVLEALAAHAITVKVGHTAHIKVPFRGKPLPKVTWYKDGMEVTEEERVSMERGEDQALLTISNCVREDSGLILLKLKNDHGSATATLHLSVLDRPKPPQGRVEFLELSGSCVHMKWKAPKDNGGRPVTQFIVERRAVGKKSWIKIGEVDGKVTNFSTNKVEEGKAYQFRILAVNSEGVSDPLETEEVFAGNPIEPPGFASQPQVTDVTKEAVTITWNAPTQDGGAPVLGYIVERRKKGSNLWVPVNKDPIQGTKCTVDGLLEDTEYEFRVIAVNKAGPGQPSVPSSSVVAKDPVKPPGLVQDLHVSDSSNSSISLAWREPAEGDPPSGYILEMRAEDTKEWSKCTKIPISGTCYTVGGLIERQKYFFRIRAVNEAGVGEPVELDKGVRAMPPPAAPKFDLSARLKSHMVVRAGTALCIHAAFSGSPPPDVIWQKDGVPTKGRETITKSKNHSQFLINSTKRSDSGVYRILLQNEFGEARYDIHVRVADFPRPPTNLRLFEEVPNTVTLTWNHSPDVQEDGEAHYIIMKRDASTATWYTAAERVFSNKYTVTGLLPGRKYYFRVVARNEIGDSEPLDSRDTWLINKDQIQDLSAKLKPYEKKDWRHAPRFVTPLKPHTVLRGQDCTMTCAFLGNPRPTVTLYKGDVNITANSKFWYNSTSGVCTLVIPTCTLKDSGDYSVLVENELGKDRSSCTLTVYDKDDKSVVASITESLQKKSKHLM

Target ORF information:

RefSeq Version	XM_017017608.1
Organism	Homo sapiens(human)
Definition	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017017608.1

ORF Insert Sequence:

ATGACAACCA TTCACAGCCG GCAGATGCTG CAGGAGCACG TGTCCATGGA GTTCTCCAGC 
TCCACCACCC ACGTGCAGAC CTTCTCCCAG ACAACCAAGA TCGTGGGAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

IGSF22 ( XM_011520031.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011518333.1 Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X3, mRNA.

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CloneID	OHu78569
Clone ID Related Accession (Same CDS sequence)	XM_011520031.2
Accession Version	XM_011520031.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3738bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	immunoglobulin superfamily member 22 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011520031.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCCATC GACTCACCCT GCTTTCTCCC CATGTAGCTG GTCCTGCTCC CACTTCCCTA 
AATGCTCTTT GTTCCCATGC TCCACCGTCC TCTCAAGAAA GCTCTGTCCT CCCATCGCGA 
GCTGGGCTTC TACCTGGAGC CCATTCTGAC CTCTCGCCTG CCCCCACAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGAGCCT 
CCTGGTTTTG CCTCCCAGCC TCAAGTGACT GATGTGACTA AAGAAGCCGT GACCATCACG 
TGGAATGCCC CTACCCAGGA TGGGGGAGCC CCAGTGCTCG GCTACATTGT AGAACGAAGG 
AAGAAAGGCA GCAACCTGTG GGTGCCAGTC AACAAGGACC CCATCCAGGG CACCAAGTGC 
ACTGTGGATG GTCTCCTGGA GGACACAGAA TATGAATTCC GAGTTATAGC TGTAAATAAG 
GCAGGCCCTG GACAGCCCAG TGTGCCATCC AGCTCAGTAG TGGCCAAGGA TCCTGTTAAA 
CCCCCAGGCC TGGTCCAGGA CCTGCATGTA TCTGATTCCT CCAACTCCAG CATTTCCCTG 
GCCTGGCGGG AGCCTGCAGA GGGAGACCCA CCCTCTGGCT ACATCCTTGA GATGAGGGCT 
GAAGACACAA AGGAGTGGTC CAAGTGCACA AAGATCCCCA TCTCAGGCAC CTGCTACACA 
GTGGGAGGAC TCATCGAGAG GCAGAAATAC TTCTTCCGAA TCCGGGCTGT GAATGAGGCT 
GGGGTTGGGG AGCCTGTGGA GCTAGACAAG GGGGTCCGTG CCATGCCACC ACCAGCTGCA 
CCCAAGTTTG ACCTCAGTGC CCGGCTGAAG AGTCACATGG TGGTTCGCGC TGGGACAGCC 
CTCTGCATCC ATGCAGCCTT CTCTGGCTCA CCACCACCTG ACGTGATCTG GCAGAAAGAT 
GGCGTTCCCA CCAAGGGCCG AGAGACAATT ACCAAGAGCA AAAACCACTC CCAGTTCCTC 
ATTAATAGCA CCAAGCGCTC TGACTCAGGG GTGTACCGAA TCTTGCTTCA GAATGAGTTT 
GGAGAAGCAC GCTATGACAT CCATGTGCGC GTGGCAGATT TCCCTCGGCC CCCCACAAAC 
CTACGGTTGT TTGAGGAAGT CCCCAACACA GTGACTCTGA CCTGGAACCA CAGCCCAGAT 
GTGCAGGAGG ACGGTGAGGC TCACTACATC ATCATGAAGC GGGATGCAAG CACAGCCACC 
TGGTACACGG CAGCCGAGCG TGTCTTCAGC AACAAGTACA CAGTGACGGG GCTGCTCCCA 
GGCAGGAAGT ACTACTTCAG AGTGGTGGCT CGGAATGAAA TCGGTGACAG TGAGCCACTT 
GACTCCAGGG ACACCTGGCT CATCAATAAG GACCAGATCC AGGACCTGAG CGCCAAGCTC 
AAGCCCTACG AGAAGAAGGA CTGGCGCCAC GCGCCGCGCT TCGTGACGCC CCTCAAGCCA 
CACACGGTGC TCCGCGGCCA GGACTGCACC ATGACCTGCG CCTTCCTTGG GAACCCGCGG 
CCCACAGTGA CCCTCTACAA GGGCGACGTC AACATCACGG CCAACTCCAA GTTCTGGTAC 
AACTCCACCA GCGGCGTGTG CACCCTCGTC ATCCCCACCT GCACGCTCAA GGACAGCGGC 
GATTACAGCG TGCTGGTGGA GAACGAGCTG GGCAAGGACC GCAGCAGCTG CACGCTCACC 
GTCTATGACA AAGATGATAA GTCAGTTGTA GCATCCATCA CCGAGAGTCT GCAGAAGAAA 
TCAAAGCACC TCATGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011518333.1
CDS	3035..6772
Translation	MAHRLTLLSPHVAGPAPTSLNALCSHAPPSSQESSVLPSRAGLLPGAHSDLSPAPTEEVVRRKSSSIVEFFSLVTRSSNIPAGDSVPEFVEKPQPVTAPEGDKAVFRARVQGNAKPHISWKRESGIPIKESAKIFYDSINKEHVLKLEPLTSDDSDNYKCIASNDHADAIYTVSLLVTEGQEKMDFKKMLKKRAPPAPKKKQKKVANEKEMLEILSKVPKKDFEKVCMEYGFTDFRGLLRKLKEMKKKVEVEAIRILKPLEDKETKVDTTVVFDCIMELKDPNVKMIWIKGTEPLRIQYSLGKYDVKQMGTKYMLVISNVNMNDAGIYSLSVGDKRMSAELTVLDEPLKFLGEMKPVKVTERQTAVFEIRLSKKEPNFVWKFNGKELKRDDKYEITVSEDGLTHTLKIKDARLSDSGEFSAEAGNLVQKAQLTVDRIPIKFVSNLKNVRVKERSRACLECELTSKDVTLRWKKDGQLLMHGTKYSMNHEGKRAELIIEDAQLSDGGEYTVVAMQDGDPTEYYSTAIVTVEERLATVKSGMSDVHAATGSPAELCVVLNDEKVEGVWLKDGKEITDLPGMQIVKQGAVHKLIFPSMGPEHEGKYTFRAKGTESEASVFIADPPTIDPSVLEALAAHAITVKVGHTAHIKVPFRGKPLPKVTWYKDGMEVTEEERVSMERGEDQALLTISNCVREDSGLILLKLKNDHGSATATLHLSVLEPPGFASQPQVTDVTKEAVTITWNAPTQDGGAPVLGYIVERRKKGSNLWVPVNKDPIQGTKCTVDGLLEDTEYEFRVIAVNKAGPGQPSVPSSSVVAKDPVKPPGLVQDLHVSDSSNSSISLAWREPAEGDPPSGYILEMRAEDTKEWSKCTKIPISGTCYTVGGLIERQKYFFRIRAVNEAGVGEPVELDKGVRAMPPPAAPKFDLSARLKSHMVVRAGTALCIHAAFSGSPPPDVIWQKDGVPTKGRETITKSKNHSQFLINSTKRSDSGVYRILLQNEFGEARYDIHVRVADFPRPPTNLRLFEEVPNTVTLTWNHSPDVQEDGEAHYIIMKRDASTATWYTAAERVFSNKYTVTGLLPGRKYYFRVVARNEIGDSEPLDSRDTWLINKDQIQDLSAKLKPYEKKDWRHAPRFVTPLKPHTVLRGQDCTMTCAFLGNPRPTVTLYKGDVNITANSKFWYNSTSGVCTLVIPTCTLKDSGDYSVLVENELGKDRSSCTLTVYDKDDKSVVASITESLQKKSKHLM

Target ORF information:

RefSeq Version	XM_011520031.2
Organism	Homo sapiens(human)
Definition	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011520031.2

ORF Insert Sequence:

ATGGCCCATC GACTCACCCT GCTTTCTCCC CATGTAGCTG GTCCTGCTCC CACTTCCCTA 
AATGCTCTTT GTTCCCATGC TCCACCGTCC TCTCAAGAAA GCTCTGTCCT CCCATCGCGA 
GCTGGGCTTC TACCTGGAGC CCATTCTGAC CTCTCGCCTG CCCCCACAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGAGCCT 
CCTGGTTTTG CCTCCCAGCC TCAAGTGACT GATGTGACTA AAGAAGCCGT GACCATCACG 
TGGAATGCCC CTACCCAGGA TGGGGGAGCC CCAGTGCTCG GCTACATTGT AGAACGAAGG 
AAGAAAGGCA GCAACCTGTG GGTGCCAGTC AACAAGGACC CCATCCAGGG CACCAAGTGC 
ACTGTGGATG GTCTCCTGGA GGACACAGAA TATGAATTCC GAGTTATAGC TGTAAATAAG 
GCAGGCCCTG GACAGCCCAG TGTGCCATCC AGCTCAGTAG TGGCCAAGGA TCCTGTTAAA 
CCCCCAGGCC TGGTCCAGGA CCTGCATGTA TCTGATTCCT CCAACTCCAG CATTTCCCTG 
GCCTGGCGGG AGCCTGCAGA GGGAGACCCA CCCTCTGGCT ACATCCTTGA GATGAGGGCT 
GAAGACACAA AGGAGTGGTC CAAGTGCACA AAGATCCCCA TCTCAGGCAC CTGCTACACA 
GTGGGAGGAC TCATCGAGAG GCAGAAATAC TTCTTCCGAA TCCGGGCTGT GAATGAGGCT 
GGGGTTGGGG AGCCTGTGGA GCTAGACAAG GGGGTCCGTG CCATGCCACC ACCAGCTGCA 
CCCAAGTTTG ACCTCAGTGC CCGGCTGAAG AGTCACATGG TGGTTCGCGC TGGGACAGCC 
CTCTGCATCC ATGCAGCCTT CTCTGGCTCA CCACCACCTG ACGTGATCTG GCAGAAAGAT 
GGCGTTCCCA CCAAGGGCCG AGAGACAATT ACCAAGAGCA AAAACCACTC CCAGTTCCTC 
ATTAATAGCA CCAAGCGCTC TGACTCAGGG GTGTACCGAA TCTTGCTTCA GAATGAGTTT 
GGAGAAGCAC GCTATGACAT CCATGTGCGC GTGGCAGATT TCCCTCGGCC CCCCACAAAC 
CTACGGTTGT TTGAGGAAGT CCCCAACACA GTGACTCTGA CCTGGAACCA CAGCCCAGAT 
GTGCAGGAGG ACGGTGAGGC TCACTACATC ATCATGAAGC GGGATGCAAG CACAGCCACC 
TGGTACACGG CAGCCGAGCG TGTCTTCAGC AACAAGTACA CAGTGACGGG GCTGCTCCCA 
GGCAGGAAGT ACTACTTCAG AGTGGTGGCT CGGAATGAAA TCGGTGACAG TGAGCCACTT 
GACTCCAGGG ACACCTGGCT CATCAATAAG GACCAGATCC AGGACCTGAG CGCCAAGCTC 
AAGCCCTACG AGAAGAAGGA CTGGCGCCAC GCGCCGCGCT TCGTGACGCC CCTCAAGCCA 
CACACGGTGC TCCGCGGCCA GGACTGCACC ATGACCTGCG CCTTCCTTGG GAACCCGCGG 
CCCACAGTGA CCCTCTACAA GGGCGACGTC AACATCACGG CCAACTCCAA GTTCTGGTAC 
AACTCCACCA GCGGCGTGTG CACCCTCGTC ATCCCCACCT GCACGCTCAA GGACAGCGGC 
GATTACAGCG TGCTGGTGGA GAACGAGCTG GGCAAGGACC GCAGCAGCTG CACGCTCACC 
GTCTATGACA AAGATGATAA GTCAGTTGTA GCATCCATCA CCGAGAGTCT GCAGAAGAAA 
TCAAAGCACC TCATGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

IGSF22 ( XM_017017607.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016873096.1 Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu78568
Clone ID Related Accession (Same CDS sequence)	XM_017017607.1 , XM_011520030.2
Accession Version	XM_017017607.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4041bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	immunoglobulin superfamily member 22 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCCATC GACTCACCCT GCTTTCTCCC CATGTAGCTG GTCCTGCTCC CACTTCCCTA 
AATGCTCTTT GTTCCCATGC TCCACCGTCC TCTCAAGAAA GCTCTGTCCT CCCATCGCGA 
GCTGGGCTTC TACCTGGAGC CCATTCTGAC CTCTCGCCTG CCCCCACAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016873096.1
CDS	2926..6966
Translation	MAHRLTLLSPHVAGPAPTSLNALCSHAPPSSQESSVLPSRAGLLPGAHSDLSPAPTEEVVRRKSSSIVEFFSLVTRSSNIPAGDSVPEFVEKPQPVTAPEGDKAVFRARVQGNAKPHISWKRESGIPIKESAKIFYDSINKEHVLKLEPLTSDDSDNYKCIASNDHADAIYTVSLLVTEGQEKMDFKKMLKKRAPPAPKKKQKKVANEKEMLEILSKVPKKDFEKVCMEYGFTDFRGLLRKLKEMKKKVEVEAIRILKPLEDKETKVDTTVVFDCIMELKDPNVKMIWIKGTEPLRIQYSLGKYDVKQMGTKYMLVISNVNMNDAGIYSLSVGDKRMSAELTVLDEPLKFLGEMKPVKVTERQTAVFEIRLSKKEPNFVWKFNGKELKRDDKYEITVSEDGLTHTLKIKDARLSDSGEFSAEAGNLVQKAQLTVDRIPIKFVSNLKNVRVKERSRACLECELTSKDVTLRWKKDGQLLMHGTKYSMNHEGKRAELIIEDAQLSDGGEYTVVAMQDGDPTEYYSTAIVTVEERLATVKSGMSDVHAATGSPAELCVVLNDEKVEGVWLKDGKEITDLPGMQIVKQGAVHKLIFPSMGPEHEGKYTFRAKGTESEASVFIADPPTIDPSVLEALAAHAITVKVGHTAHIKVPFRGKPLPKVTWYKDGMEVTEEERVSMERGEDQALLTISNCVREDSGLILLKLKNDHGSATATLHLSVLDRPKPPQGRVEFLELSGSCVHMKWKAPKDNGGRPVTQFIVERRAVGKKSWIKIGEVDGKVTNFSTNKVEEGKAYQFRILAVNSEGVSDPLETEEVFAGNPIEPPGFASQPQVTDVTKEAVTITWNAPTQDGGAPVLGYIVERRKKGSNLWVPVNKDPIQGTKCTVDGLLEDTEYEFRVIAVNKAGPGQPSVPSSSVVAKDPVKPPGLVQDLHVSDSSNSSISLAWREPAEGDPPSGYILEMRAEDTKEWSKCTKIPISGTCYTVGGLIERQKYFFRIRAVNEAGVGEPVELDKGVRAMPPPAAPKFDLSARLKSHMVVRAGTALCIHAAFSGSPPPDVIWQKDGVPTKGRETITKSKNHSQFLINSTKRSDSGVYRILLQNEFGEARYDIHVRVADFPRPPTNLRLFEEVPNTVTLTWNHSPDVQEDGEAHYIIMKRDASTATWYTAAERVFSNKYTVTGLLPGRKYYFRVVARNEIGDSEPLDSRDTWLINKDQIQDLSAKLKPYEKKDWRHAPRFVTPLKPHTVLRGQDCTMTCAFLGNPRPTVTLYKGDVNITANSKFWYNSTSGVCTLVIPTCTLKDSGDYSVLVENELGKDRSSCTLTVYDKDDKSVVASITESLQKKSKHLM

Target ORF information:

RefSeq Version	XM_017017607.1
Organism	Homo sapiens(human)
Definition	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017017607.1

ORF Insert Sequence:

ATGGCCCATC GACTCACCCT GCTTTCTCCC CATGTAGCTG GTCCTGCTCC CACTTCCCTA 
AATGCTCTTT GTTCCCATGC TCCACCGTCC TCTCAAGAAA GCTCTGTCCT CCCATCGCGA 
GCTGGGCTTC TACCTGGAGC CCATTCTGAC CTCTCGCCTG CCCCCACAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

IGSF22 ( XM_011520030.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011518332.1 Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu78568
Clone ID Related Accession (Same CDS sequence)	XM_017017607.1 , XM_011520030.2
Accession Version	XM_011520030.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4041bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	immunoglobulin superfamily member 22 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011520030.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCCATC GACTCACCCT GCTTTCTCCC CATGTAGCTG GTCCTGCTCC CACTTCCCTA 
AATGCTCTTT GTTCCCATGC TCCACCGTCC TCTCAAGAAA GCTCTGTCCT CCCATCGCGA 
GCTGGGCTTC TACCTGGAGC CCATTCTGAC CTCTCGCCTG CCCCCACAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011518332.1
CDS	3035..7075
Translation	MAHRLTLLSPHVAGPAPTSLNALCSHAPPSSQESSVLPSRAGLLPGAHSDLSPAPTEEVVRRKSSSIVEFFSLVTRSSNIPAGDSVPEFVEKPQPVTAPEGDKAVFRARVQGNAKPHISWKRESGIPIKESAKIFYDSINKEHVLKLEPLTSDDSDNYKCIASNDHADAIYTVSLLVTEGQEKMDFKKMLKKRAPPAPKKKQKKVANEKEMLEILSKVPKKDFEKVCMEYGFTDFRGLLRKLKEMKKKVEVEAIRILKPLEDKETKVDTTVVFDCIMELKDPNVKMIWIKGTEPLRIQYSLGKYDVKQMGTKYMLVISNVNMNDAGIYSLSVGDKRMSAELTVLDEPLKFLGEMKPVKVTERQTAVFEIRLSKKEPNFVWKFNGKELKRDDKYEITVSEDGLTHTLKIKDARLSDSGEFSAEAGNLVQKAQLTVDRIPIKFVSNLKNVRVKERSRACLECELTSKDVTLRWKKDGQLLMHGTKYSMNHEGKRAELIIEDAQLSDGGEYTVVAMQDGDPTEYYSTAIVTVEERLATVKSGMSDVHAATGSPAELCVVLNDEKVEGVWLKDGKEITDLPGMQIVKQGAVHKLIFPSMGPEHEGKYTFRAKGTESEASVFIADPPTIDPSVLEALAAHAITVKVGHTAHIKVPFRGKPLPKVTWYKDGMEVTEEERVSMERGEDQALLTISNCVREDSGLILLKLKNDHGSATATLHLSVLDRPKPPQGRVEFLELSGSCVHMKWKAPKDNGGRPVTQFIVERRAVGKKSWIKIGEVDGKVTNFSTNKVEEGKAYQFRILAVNSEGVSDPLETEEVFAGNPIEPPGFASQPQVTDVTKEAVTITWNAPTQDGGAPVLGYIVERRKKGSNLWVPVNKDPIQGTKCTVDGLLEDTEYEFRVIAVNKAGPGQPSVPSSSVVAKDPVKPPGLVQDLHVSDSSNSSISLAWREPAEGDPPSGYILEMRAEDTKEWSKCTKIPISGTCYTVGGLIERQKYFFRIRAVNEAGVGEPVELDKGVRAMPPPAAPKFDLSARLKSHMVVRAGTALCIHAAFSGSPPPDVIWQKDGVPTKGRETITKSKNHSQFLINSTKRSDSGVYRILLQNEFGEARYDIHVRVADFPRPPTNLRLFEEVPNTVTLTWNHSPDVQEDGEAHYIIMKRDASTATWYTAAERVFSNKYTVTGLLPGRKYYFRVVARNEIGDSEPLDSRDTWLINKDQIQDLSAKLKPYEKKDWRHAPRFVTPLKPHTVLRGQDCTMTCAFLGNPRPTVTLYKGDVNITANSKFWYNSTSGVCTLVIPTCTLKDSGDYSVLVENELGKDRSSCTLTVYDKDDKSVVASITESLQKKSKHLM

Target ORF information:

RefSeq Version	XM_011520030.2
Organism	Homo sapiens(human)
Definition	Homo sapiens immunoglobulin superfamily member 22 (IGSF22), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011520030.2

ORF Insert Sequence:

ATGGCCCATC GACTCACCCT GCTTTCTCCC CATGTAGCTG GTCCTGCTCC CACTTCCCTA 
AATGCTCTTT GTTCCCATGC TCCACCGTCC TCTCAAGAAA GCTCTGTCCT CCCATCGCGA 
GCTGGGCTTC TACCTGGAGC CCATTCTGAC CTCTCGCCTG CCCCCACAGA GGAGGTCGTG 
AGGAGGAAGT CCTCGAGCAT AGTGGAGTTC TTCAGCTTAG TGACCCGGAG CTCAAACATC 
CCTGCGGGCG ACAGCGTCCC TGAGTTCGTG GAGAAGCCTC AACCGGTCAC CGCGCCCGAG 
GGGGACAAAG CCGTGTTCCG AGCCCGGGTG CAGGGGAACG CCAAACCCCA CATCTCCTGG 
AAGAGGGAGA GCGGCATCCC CATCAAGGAG TCCGCCAAGA TATTCTACGA CAGCATTAAC 
AAGGAACACG TGCTGAAGCT GGAGCCACTG ACTTCGGATG ACTCTGACAA CTATAAGTGC 
ATTGCAAGCA ATGACCATGC AGATGCCATC TATACCGTAT CTCTGCTGGT AACAGAAGGT 
CAAGAGAAAA TGGACTTCAA AAAGATGCTG AAGAAGAGGG CACCCCCTGC TCCCAAGAAG 
AAGCAGAAGA AGGTGGCAAA TGAGAAAGAG ATGCTGGAGA TTTTGTCCAA AGTGCCCAAG 
AAAGACTTTG AGAAGGTGTG CATGGAGTAT GGTTTCACCG ACTTTCGGGG GCTGCTCAGG 
AAGCTCAAAG AGATGAAGAA GAAAGTAGAG GTGGAGGCCA TCCGGATTCT GAAGCCCCTG 
GAAGACAAAG AGACCAAGGT TGACACCACA GTGGTCTTTG ACTGCATAAT GGAACTGAAA 
GACCCCAATG TCAAGATGAT ATGGATCAAG GGTACTGAGC CACTGAGGAT CCAGTACTCC 
CTGGGCAAGT ACGATGTGAA GCAGATGGGC ACCAAGTACA TGCTGGTTAT TAGCAACGTG 
AACATGAACG ATGCTGGCAT CTACAGCCTG TCCGTGGGCG ATAAGCGGAT GAGTGCAGAG 
CTCACAGTGC TGGATGAGCC ACTGAAGTTC CTGGGAGAGA TGAAGCCTGT GAAGGTGACA 
GAGCGCCAGA CAGCTGTGTT TGAGATCCGC CTCTCCAAGA AAGAGCCCAA CTTTGTGTGG 
AAGTTCAATG GGAAGGAGCT GAAGAGGGAT GACAAGTATG AAATCACGGT GTCCGAAGAT 
GGTCTGACGC ACACGCTTAA GATTAAGGAT GCCAGACTCA GTGACAGCGG CGAGTTCTCT 
GCTGAGGCGG GGAACCTGGT ACAAAAGGCC CAGCTCACTG TTGACCGCAT CCCCATCAAG 
TTTGTGAGCA ACCTCAAAAA TGTACGTGTG AAAGAGAGGA GTCGCGCATG CCTGGAGTGT 
GAGCTGACAT CCAAGGATGT GACACTGCGC TGGAAGAAGG ATGGGCAGCT GCTGATGCAT 
GGCACTAAGT ACAGCATGAA CCATGAGGGC AAGCGAGCAG AGCTGATCAT TGAGGATGCA 
CAGCTCAGTG ATGGTGGCGA GTACACTGTG GTGGCCATGC AGGATGGAGA CCCTACTGAA 
TACTACAGTA CTGCCATCGT CACTGTGGAG GAGCGTCTGG CCACAGTGAA GAGCGGGATG 
TCCGACGTGC ACGCGGCCAC TGGGAGCCCA GCTGAGTTGT GTGTAGTGCT GAATGACGAG 
AAGGTGGAGG GTGTGTGGCT GAAGGATGGC AAGGAGATCA CGGACTTGCC AGGCATGCAG 
ATTGTGAAGC AGGGTGCAGT GCACAAGCTC ATCTTTCCCA GTATGGGCCC TGAGCACGAG 
GGCAAGTACA CATTCCGGGC CAAGGGCACG GAAAGTGAAG CCTCTGTATT CATCGCAGAT 
CCTCCTACCA TCGACCCGTC AGTACTGGAG GCACTGGCTG CGCACGCCAT CACTGTGAAG 
GTAGGCCACA CGGCCCACAT CAAGGTCCCC TTCCGGGGAA AACCACTGCC CAAAGTGACA 
TGGTACAAGG ATGGCATGGA AGTGACGGAG GAGGAACGCG TGTCCATGGA GCGCGGGGAA 
GACCAGGCAC TGCTCACCAT CTCCAACTGT GTGCGTGAAG ACAGCGGCCT CATCCTGCTC 
AAGCTCAAGA ATGACCACGG CTCAGCCACG GCCACTCTGC ACCTTAGTGT GCTGGACCGT 
CCAAAGCCTC CACAGGGCCG GGTGGAGTTC CTGGAGCTCT CAGGTAGTTG TGTGCACATG 
AAGTGGAAGG CCCCAAAGGA CAATGGTGGA CGACCTGTGA CACAGTTCAT AGTGGAACGG 
AGGGCAGTTG GCAAGAAGTC CTGGATTAAG ATAGGCGAGG TGGACGGCAA AGTCACCAAC 
TTCTCCACCA ACAAGGTGGA AGAGGGAAAA GCCTACCAGT TCCGTATCCT GGCAGTCAAT 
TCAGAAGGTG TGAGTGACCC ACTGGAGACA GAAGAAGTGT TTGCAGGAAA TCCCATAGAG 
CCTCCTGGTT TTGCCTCCCA GCCTCAAGTG ACTGATGTGA CTAAAGAAGC CGTGACCATC 
ACGTGGAATG CCCCTACCCA GGATGGGGGA GCCCCAGTGC TCGGCTACAT TGTAGAACGA 
AGGAAGAAAG GCAGCAACCT GTGGGTGCCA GTCAACAAGG ACCCCATCCA GGGCACCAAG 
TGCACTGTGG ATGGTCTCCT GGAGGACACA GAATATGAAT TCCGAGTTAT AGCTGTAAAT 
AAGGCAGGCC CTGGACAGCC CAGTGTGCCA TCCAGCTCAG TAGTGGCCAA GGATCCTGTT 
AAACCCCCAG GCCTGGTCCA GGACCTGCAT GTATCTGATT CCTCCAACTC CAGCATTTCC 
CTGGCCTGGC GGGAGCCTGC AGAGGGAGAC CCACCCTCTG GCTACATCCT TGAGATGAGG 
GCTGAAGACA CAAAGGAGTG GTCCAAGTGC ACAAAGATCC CCATCTCAGG CACCTGCTAC 
ACAGTGGGAG GACTCATCGA GAGGCAGAAA TACTTCTTCC GAATCCGGGC TGTGAATGAG 
GCTGGGGTTG GGGAGCCTGT GGAGCTAGAC AAGGGGGTCC GTGCCATGCC ACCACCAGCT 
GCACCCAAGT TTGACCTCAG TGCCCGGCTG AAGAGTCACA TGGTGGTTCG CGCTGGGACA 
GCCCTCTGCA TCCATGCAGC CTTCTCTGGC TCACCACCAC CTGACGTGAT CTGGCAGAAA 
GATGGCGTTC CCACCAAGGG CCGAGAGACA ATTACCAAGA GCAAAAACCA CTCCCAGTTC 
CTCATTAATA GCACCAAGCG CTCTGACTCA GGGGTGTACC GAATCTTGCT TCAGAATGAG 
TTTGGAGAAG CACGCTATGA CATCCATGTG CGCGTGGCAG ATTTCCCTCG GCCCCCCACA 
AACCTACGGT TGTTTGAGGA AGTCCCCAAC ACAGTGACTC TGACCTGGAA CCACAGCCCA 
GATGTGCAGG AGGACGGTGA GGCTCACTAC ATCATCATGA AGCGGGATGC AAGCACAGCC 
ACCTGGTACA CGGCAGCCGA GCGTGTCTTC AGCAACAAGT ACACAGTGAC GGGGCTGCTC 
CCAGGCAGGA AGTACTACTT CAGAGTGGTG GCTCGGAATG AAATCGGTGA CAGTGAGCCA 
CTTGACTCCA GGGACACCTG GCTCATCAAT AAGGACCAGA TCCAGGACCT GAGCGCCAAG 
CTCAAGCCCT ACGAGAAGAA GGACTGGCGC CACGCGCCGC GCTTCGTGAC GCCCCTCAAG 
CCACACACGG TGCTCCGCGG CCAGGACTGC ACCATGACCT GCGCCTTCCT TGGGAACCCG 
CGGCCCACAG TGACCCTCTA CAAGGGCGAC GTCAACATCA CGGCCAACTC CAAGTTCTGG 
TACAACTCCA CCAGCGGCGT GTGCACCCTC GTCATCCCCA CCTGCACGCT CAAGGACAGC 
GGCGATTACA GCGTGCTGGT GGAGAACGAG CTGGGCAAGG ACCGCAGCAG CTGCACGCTC 
ACCGTCTATG ACAAAGATGA TAAGTCAGTT GTAGCATCCA TCACCGAGAG TCTGCAGAAG 
AAATCAAAGC ACCTCATGTG A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PubMed

Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium.
Briefings in bioinformatics12(5)449-62(2011 Sep)
Gaudet P,Livstone MS,Lewis SE,Thomas PD

Diversification of transcriptional modulation: large-scale identification and characterization of putative alternative promoters of human genes.
Genome research16(1)55-65(2006 Jan)
Kimura K,Wakamatsu A,Suzuki Y,Ota T,Nishikawa T,Yamashita R,Yamamoto J,Sekine M,Tsuritani K,Wakaguri H,Ishii S,Sugiyama T,Saito K,Isono Y,Irie R,Kushida N,Yoneyama T,Otsuka R,Kanda K,Yokoi T,Kondo H,Wagatsuma M,Murakawa K,Ishida S,Ishibashi T,Takahashi-Fujii A,Tanase T,Nagai K,Kikuchi H,Nakai K,Isogai T,Sugano S

Complete sequencing and characterization of 21,243 full-length human cDNAs.
Nature genetics36(1)40-5(2004 Jan)
Ota T,Suzuki Y,Nishikawa T,Otsuki T,Sugiyama T,Irie R,Wakamatsu A,Hayashi K,Sato H,Nagai K,Kimura K,Makita H,Sekine M,Obayashi M,Nishi T,Shibahara T,Tanaka T,Ishii S,Yamamoto J,Saito K,Kawai Y,Isono Y,Nakamura Y,Nagahari K,Murakami K,Yasuda T,Iwayanagi T,Wagatsuma M,Shiratori A,Sudo H,Hosoiri T,Kaku Y,Kodaira H,Kondo H,Sugawara M,Takahashi M,Kanda K,Yokoi T,Furuya T,Kikkawa E,Omura Y,Abe K,Kamihara K,Katsuta N,Sato K,Tanikawa M,Yamazaki M,Ninomiya K,Ishibashi T,Yamashita H,Murakawa K,Fujimori K,Tanai H,Kimata M,Watanabe M,Hiraoka S,Chiba Y,Ishida S,Ono Y,Takiguchi S,Watanabe S,Yosida M,Hotuta T,Kusano J,Kanehori K,Takahashi-Fujii A,Hara H,Tanase TO,Nomura Y,Togiya S,Komai F,Hara R,Takeuchi K,Arita M,Imose N,Musashino K,Yuuki H,Oshima A,Sasaki N,Aotsuka S,Yoshikawa Y,Matsunawa H,Ichihara T,Shiohata N,Sano S,Moriya S,Momiyama H,Satoh N,Takami S,Terashima Y,Suzuki O,Nakagawa S,Senoh A,Mizoguchi H,Goto Y,Shimizu F,Wakebe H,Hishigaki H,Watanabe T,Sugiyama A,Takemoto M,Kawakami B,Yamazaki M,Watanabe K,Kumagai A,Itakura S,Fukuzumi Y,Fujimori Y,Komiyama M,Tashiro H,Tanigami A,Fujiwara T,Ono T,Yamada K,Fujii Y,Ozaki K,Hirao M,Ohmori Y,Kawabata A,Hikiji T,Kobatake N,Inagaki H,Ikema Y,Okamoto S,Okitani R,Kawakami T,Noguchi S,Itoh T,Shigeta K,Senba T,Matsumura K,Nakajima Y,Mizuno T,Morinaga M,Sasaki M,Togashi T,Oyama M,Hata H,Watanabe M,Komatsu T,Mizushima-Sugano J,Satoh T,Shirai Y,Takahashi Y,Nakagawa K,Okumura K,Nagase T,Nomura N,Kikuchi H,Masuho Y,Yamashita R,Nakai K,Yada T,Nakamura Y,Ohara O,Isogai T,Sugano S

Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
Proceedings of the National Academy of Sciences of the United States of America99(26)16899-903(2002 Dec)
Strausberg RL,Feingold EA,Grouse LH,Derge JG,Klausner RD,Collins FS,Wagner L,Shenmen CM,Schuler GD,Altschul SF,Zeeberg B,Buetow KH,Schaefer CF,Bhat NK,Hopkins RF,Jordan H,Moore T,Max SI,Wang J,Hsieh F,Diatchenko L,Marusina K,Farmer AA,Rubin GM,Hong L,Stapleton M,Soares MB,Bonaldo MF,Casavant TL,Scheetz TE,Brownstein MJ,Usdin TB,Toshiyuki S,Carninci P,Prange C,Raha SS,Loquellano NA,Peters GJ,Abramson RD,Mullahy SJ,Bosak SA,McEwan PJ,McKernan KJ,Malek JA,Gunaratne PH,Richards S,Worley KC,Hale S,Garcia AM,Gay LJ,Hulyk SW,Villalon DK,Muzny DM,Sodergren EJ,Lu X,Gibbs RA,Fahey J,Helton E,Ketteman M,Madan A,Rodrigues S,Sanchez A,Whiting M,Madan A,Young AC,Shevchenko Y,Bouffard GG,Blakesley RW,Touchman JW,Green ED,Dickson MC,Rodriguez AC,Grimwood J,Schmutz J,Myers RM,Butterfield YS,Krzywinski MI,Skalska U,Smailus DE,Schnerch A,Schein JE,Jones SJ,Marra MA,

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IGSF22 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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