TTC37 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	TTC37
Entrez Gene ID	9652
Full Name	tetratricopeptide repeat domain 37
Synonyms	KIAA0372,Ski3,THES
General protein information	Preferred Names tetratricopeptide repeat domain 37 Names tetratricopeptide repeat protein 37 SKI3 homolog TPR repeat protein 37 thespin tricho-hepatic-enteric syndrome protein
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 5 Map Location: 5q15
Summary	This gene encodes a protein with twenty tetratricopeptide (TPR) repeats. Tetratricopeptide repeat containing motifs are found in a variety of proteins and may mediate protein-protein interactions and chaperone activity. Mutations in this gene are associated with trichohepatoenteric syndrome. [provided by RefSeq, Jul 2010].
Disorder MIM:	614589
Disorder Html:	Trichohepatoenteric syndrome 1, 222470 (3)

mRNA and Protein(s)

mRNA	Protein	Name
NM_014639.3	NP_055454.1	tetratricopeptide repeat protein 37
NM_014639.4	NP_055454.1	tetratricopeptide repeat protein 37

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	TTC37	XP_005618155.1
Mus musculus (house mouse)	Ttc37	NP_001074821.1
Rattus norvegicus (Norway rat)	Ttc37	XP_006231780.1
Homo sapiens (human)	TTC37	NP_055454.1
Pan troglodytes (chimpanzee)	TTC37	XP_003310696.1
Danio rerio (zebrafish)	LOC100332172	XP_002662144.2
	TTC37	XP_002804495.1
Bos taurus (cattle)	TTC37	XP_005209799.1
Gallus gallus (chicken)	TTC37	XP_004949443.1
Drosophila melanogaster (fruit fly)	CG8777	NP_610452.2
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP003279	XP_307786.5
Xenopus tropicalis (tropical clawed frog)	ttc37	NP_001121453.1

Gene Ontology
Bibliography

Related articles in PubMed

Novel mutations in SKIV2L and TTC37 genes in Malaysian children with trichohepatoenteric syndrome.
Lee WS, Teo KM, Ng RT, Chong SY, Kee BP, Chua KH
Gene586(1)1-6(2016 Jul)

Identifying Mutations of the Tetratricopeptide Repeat Domain 37 (TTC37) Gene in Infants With Intractable Diarrhea and a Comparison of Asian and Non-Asian Phenotype and Genotype: A Global Case-report Study of a Well-Defined Syndrome With Immunodeficiency.
Lee WI, Huang JL, Chen CC, Lin JL, Wu RC, Jaing TH, Ou LS
Medicine95(9)e2918(2016 Mar)

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

Study reported three point mutations, which have not been previously described in other patients with THES in SKIV2L and TTC37 genes, including one nonsense, one frameshift, and one missense mutations.
Title: Novel mutations in SKIV2L and TTC37 genes in Malaysian children with trichohepatoenteric syndrome.

A PubMed search for bi-allelic TTC37 mutations and phenotypes were recorded in 14 Asian and 12 non-Asian cases
Title: Identifying Mutations of the Tetratricopeptide Repeat Domain 37 (TTC37) Gene in Infants With Intractable Diarrhea and a Comparison of Asian and Non-Asian Phenotype and Genotype: A Global Case-report Study of a Well-Defined Syndrome With Immunodeficiency.

This is a report of novel mutations in TTC37 in individuals of East Asian descent. * Whole exome sequencing (WES) can be useful in certain complex cases with diagnostic dilemmas.
Title: Tricho-hepato-enteric syndrome (THE-S): two cases and review of the literature.

TTC37 is widely expressed, with high levels in vascular tissues, lymph node, pituitary, lung, and intestine. In contrast, TTC37 is not expressed in the liver, an organ that is not consistently affected in tricho-hepato-enteric syndrome
Title: Novel mutations in TTC37 associated with tricho-hepato-enteric syndrome.

Mutations in TTC37 cause trichohepatoenteric syndrome (phenotypic diarrhea of infancy).
Title: Mutations in TTC37 cause trichohepatoenteric syndrome (phenotypic diarrhea of infancy).

The following TTC37 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TTC37 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)
OHu19701	NM_014639.4 Latest version!	Homo sapiens tetratricopeptide repeat domain 37 (TTC37), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
View Old Accession Versions >>
OHu19701	NM_014639.3	Homo sapiens tetratricopeptide repeat domain 37 (TTC37), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
Hide Old Accession Versions >>

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

Reference Sequences (Refseq)

TTC37 ( NM_014639.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_055454.1 Homo sapiens tetratricopeptide repeat domain 37 (TTC37), mRNA.

Price & Availability↑

CloneID	OHu19701
Clone ID Related Accession (Same CDS sequence)	NM_014639.3 , NM_014639.4
Accession Version	NM_014639.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4695bp) 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	2019-06-03
Organism	Homo sapiens(human)
Product	tetratricopeptide repeat protein 37
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB002370.1. This sequence is a reference standard in the RefSeqGene project. On Jul 20, 2010 this sequence version replaced NM_014639.2. ##Evidence-Data-START## Transcript exon combination :: AB002370.1, SRR1660809.197605.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END##

ATGTCCAGCA AGGAAGTGAA GACTGCTCTA AAAAGTGCTA GAGATGCAAT CAGAAACAAA 
GAATACAAAG AAGCTTTGAA ACACTGTAAG ACAGTGTTAA AGCAAGAGAA AAATAACTAT 
AATGCCTGGG TTTTTATTGG CGTTGCTGCA GCTGAACTAG AACAACCTGA TCAGGCCCAG 
AGTGCCTATA AAAAAGCTGC TGAATTAGAG CCAGACCAAT TACTAGCTTG GCAGGGGTTA 
GCAAACTTGT ATGAGAAATA TAATCACATA AATGCTAAGG ATGACTTGCC TGGTGTTTAC 
CAAAAGCTCC TGGATCTTTA TGAGAGTGTT GACAAGCAGA AGTGGTGTGA TGTCTGCAAG 
AAACTTGTGG ATCTATATTA CCAAGAAAAG AAACACCTAG AGGTGGCTCG AACATGGCAC 
AAGTTGATAA AAACACGGCA GGAACAAGGT GCAGAAAATG AAGAGCTTCA TCAACTATGG 
AGAAAATTGA CTCAGTTCCT GGCTGAAAGT ACAGAGGACC AGAATAATGA AACTCAGCAA 
TTGCTTTTTA CTGCTTTTGA GAATGCACTG GGATTATCAG ATAAGATTCC TAGTGAAGAT 
CACCAAGTAC TTTATAGGCA TTTCATTCAG AGTTTATCCA AATTTCCTCA TGAGTCTGCT 
AGATTGAAGA AGGCCTGTGA AGGAATGATA AACATCTATC CTACTGTACA GTATCCATTA 
GAAGTGCTTT GTTTGCATTT AATTGAATCA GGAAATCTTA CTGATGAGGG GCAGCAGTAT 
TGTTGTAGAT TAGTGGAAAT GGATTCAAAA AGTGGTCCAG GCCTCATTGG CTTAGGCATT 
AAAGCATTAC AAGACAAAAA GTATGAAGAT GCTGTTAGGA ACCTAACAGA AGGGTTAAAG 
GAAAGCCCTG TCTGCACAAG TGGATGGTAT CATCTGGCAG AAGCCCAAGT CAAAATGCAT 
AGACCTAAAG AAGCTGTTCT TTCATGCAGT CAAGCTCTGA AGATCGTAGA TAATCTTGGT 
GCGTCTGGTA ACAGTCTTTA TCAGAGGAAT CTTTGTCTTC ATTTGAAAGC AGAGGCTTTG 
ATTAAACTCT CAGATTATGA CTCTTCAGAG GAAGCAATTC GTACGCTTGA TCAGATTTCT 
GATGCAGATA ATATCCCAGG ACTTTTGGTT CTCAAAAGCT TGGCCTATCG GAACAAAGGT 
TCATTTGATG AAGCTGCAAA GATTATGGAA GACCTTCTCT CTTCTTACCC TGACCTAGCT 
GAAGTTCATG CCCTTGAGGC TTTGATTCAT TTCACCAAAA AGGACTATCT ACAAGCAGAA 
AAATGTTTTC AGAGAGCTCT TGAGAAAGAT ACCGAAGTTG CAGAATATCA TTACCAACTT 
GGATTAACAT ACTGGTTCAT GGGTGAAGAG ACAAGAAAAG ATAAAACAAA GGCTCTTACC 
CACTTTCTGA AGGCTGCAAG ACTGGATACA TATATGGGCA AAGTTTTCTG CTATTTAGGT 
CATTATTATA GAGACGTAGT GGGAGATAAA AACAGAGCTC GTGGATGTTA TAGGAAAGCC 
TTTGAATTAG ATGACACTGA TGCTGAATCT GGAGCTGCAG CAGTTGACCT AAGTGTGGAG 
CTTGAAGATA TGGAAATGGC TTTAGCTATC CTAACAACAG TAACTCAAAA GGCAAGTGCT 
GGAACGGCAA AATGGGCCTG GCTTAGGCGA GGACTATACT ATTTGAAAGC TGGTCAGCAT 
TCTCAAGCAG TGGCTGATTT ACAGGCAGCA TTAAGAGCAG ACCCAAAGGA CTTCAATTGT 
TGGGAATCGT TAGGAGAAGC ATACTTAAGC AGAGGAGGCT ACACAACAGC CTTGAAGTCC 
TTCACAAAAG CCAGTGAGCT GAACCCAGAA TCCATATACA GTGTGTTTAA GGTTGCAGCA 
ATACAGCAAA TCCTAGGCAA ATATAAGGAG GCTGTAGCTC AATACCAGAT GATCATTAAA 
AAGAAAGAAG ATTATGTGCC TGCTTTAAAA GGTTTGGGTG AATGCCATCT TATGATGGCA 
AAAGCAGCTC TAGTTGATTA TCTTGATGGA AAAGCCGTAG ACTACATAGA AAAAGCACTG 
GAATATTTTA CTTGTGCTCT ACAGCATCGA GCTGATGTGT CCTGCCTCTG GAAGCTAGCT 
GGGGATGCTT GTACCTGTCT GTATGCTGTC GCACCATCTA AAGTGAATGT TCATGTTTTA 
GGAGTCCTTC TAGGTCAGAA AGAAGGAAAA CAAGTATTAA AGAAAAATGA GCTCCTCCAC 
CTTGGAGGAA GGTGTTATGG TCGTGCATTA AAACTGATGT CTACATCTAA TACATGGTGT 
GACCTTGGAA TTAATTATTA TCGCCAAGCA CAACATCTAG CAGAAACAGG CAGCAACATG 
AATGATCTTA AGGAGTTGCT GGAGAAATCT TTACATTGTC TGAAAAAAGC AGTGAGACTC 
GACAGTAATA ATCACTTATA CTGGAATGCT CTTGGTGTGG TTGCATGTTA CAGTGGTATT 
GGAAATTATG CCCTTGCTCA GCACTGTTTC ATCAAATCAA TCCAGTCAGA ACAAATTAAT 
GCTGTTGCAT GGACCAACTT GGGAGTGTTA TACCTCACAA ATGAAAACAT TGAGCAAGCT 
CATGAGGCTT TCAAAATGGC TCAATCCCTT GATCCATCTT ATTTAATGTG CTGGATTGGA 
CAAGCTCTTA TTGCTGAGGC AGTTGGAAGT TATGACACCA TGGATCTCTT CAGGCACACT 
ACAGAACTAA ATATGCATAC TGAAGGAGCA TTAGGTTATG CGTATTGGGT CTGCACAACA 
TTGCAAGATA AAAGCAACAG AGAAACAGAG CTGTACCAGT ACAACATCCT CCAGATGAAT 
GCTATTCCAG CAGCACAAGT TATTTTGAAT AAATATGTAG AAAGAATTCA GAATTATGCC 
CCAGCTTTCA CAATGTTGGG TTACTTAAAC GAACATCTAC AACTGAAAAA GGAAGCAGCA 
AATGCATACC AAAGGGCAAT TTTGTTGTTA CAGACTGCAG AAGACCAAGA TACTTACAAT 
GTTGCAATAA GAAATTACGG CAGATTGTTA TGTTCCACTG GTGAATATGA TAAAGCTATC 
CAGGCTTTTA AGTCAACACC CCTTGAAGTG TTAGAAGACA TCATAGGTTT TGCATTGGCT 
TTATTCATGA AGGGGCTTTA TAAAGAGAGC AGCAAAGCCT ATGAGAGAGC CTTGTCTATT 
GTTGAATCGG AGCAAGACAA AGCCCATATC TTGACAGCTC TGGCAATAAC TGAATATAAA 
CAAGGAAAAA CGGATGTAGC CAAGACATTG CTATTTAAAT GCTCTATCTT AAAGGAACCA 
ACCACAGAAA GCCTTCAAGC CCTGTGTGCT CTAGGGTTGG CAATGCAGGA TGCTACACTG 
TCAAAAGCAG CACTTAATGA GTTACTGAAG CACATCAAAC ACAAAGACAG TAATTATCAG 
AGGTGCCTTC TTACATCAGC GATTTATGCA CTCCAAGGCC GCAGTGTGGC TGTGCAAAAA 
CAAATATCTA AAGCTGTTCA CAGCAACCCT GGTGACCCTG CTCTTTGGTC TCTGTTGTCT 
CGAGTTGTTG CACAGTATGC TCAACGAAAT GCAAAGGGAG GTGTTGTAGC AGGAAATGTG 
GCTCATATTC TGGACTCAAA TCATGGAAAG AAGGCATTAC TGTACACTGC GGTAAATCAG 
TTGGCTATGG GAAGCAGTTC AGCAGAAGAT GAAAAAAATA CTGCACTAAA GACCATTCAG 
AAGGCAGCTC TCCTTTCTCC AGGTGATCCT GCTATCTGGG CTGGGCTAAT GGCAGCCTGT 
CACGCTGATG ATAAACTGGC CTTAGTGAAC AACACTCAGC CAAAGAGGAT AGATTTATAC 
TTGGCACTGT TATCTGCTGT TTCTGCTTCA ATTAAAGACG AAAAATTCTT TGAAAATTAC 
AACCAGTCCC TTGAAAAGTG GTCTCTCTCA CAAGCTGTCA CTGGTCTAAT AGACACAGGA 
AGAATATCTG AAGCTGAAAC TCTCTGCACA AAGAATTTAA AAAGTAACCC TGATCAGCCA 
GCCGTTATCT TACTTTTGAG ACAAGTTCAG TGTAAACCAC TCCTGGAGTC ACAAAAGCCA 
CTCCCAGATG CTGTACTTGA AGAACTACAA AAAACAGTCA TGTCCAACTC AACCTCTGTT 
CCAGCTTGGC AGTGGCTGGC ACATGTGTAT CAATCCCAAG GAATGATGAG AGCTGCAGAG 
ATGTGTTACA GAAAGAGTCT ACAATTGGCA TCCCAACGGG GCAGTTGGAG TGGGAAGCTC 
TCAAGTCTGT TGAGACTAGC ACTACTTGCA TTAAAAGTCT GTATGGCTAA CATTTCCAAT 
GATCACTGGC CATCTTTGGT TCAAGAGGCT ACAACTGAGG CCTTGAAGCT TTGCTTTTGT 
CCACTGGCTG TTCTTTTACA AGCTTTGTTA CAATTCAAAC GCAAAATGGG GGCAAGAGAG 
ACACGGCGTC TTTTGGAAAG AGTGGTATAT CAGCCTGGGT ATCCCAAATC TATTGCATCA 
ACTGCACGTT GGTACCTACT GAGACACTTA TATGCCAAAG ATGACTATGA GCTTATTGAC 
GTGCTGGTAA ACAATGCCAA AACTCATGGA GATACAAGAG CATTGGAACT GAATCAGAGA 
TTGTCCTCAC AATAA

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

RefSeq	NP_055454.1
CDS	298..4992
Translation	MSSKEVKTALKSARDAIRNKEYKEALKHCKTVLKQEKNNYNAWVFIGVAAAELEQPDQAQSAYKKAAELEPDQLLAWQGLANLYEKYNHINAKDDLPGVYQKLLDLYESVDKQKWCDVCKKLVDLYYQEKKHLEVARTWHKLIKTRQEQGAENEELHQLWRKLTQFLAESTEDQNNETQQLLFTAFENALGLSDKIPSEDHQVLYRHFIQSLSKFPHESARLKKACEGMINIYPTVQYPLEVLCLHLIESGNLTDEGQQYCCRLVEMDSKSGPGLIGLGIKALQDKKYEDAVRNLTEGLKESPVCTSGWYHLAEAQVKMHRPKEAVLSCSQALKIVDNLGASGNSLYQRNLCLHLKAEALIKLSDYDSSEEAIRTLDQISDADNIPGLLVLKSLAYRNKGSFDEAAKIMEDLLSSYPDLAEVHALEALIHFTKKDYLQAEKCFQRALEKDTEVAEYHYQLGLTYWFMGEETRKDKTKALTHFLKAARLDTYMGKVFCYLGHYYRDVVGDKNRARGCYRKAFELDDTDAESGAAAVDLSVELEDMEMALAILTTVTQKASAGTAKWAWLRRGLYYLKAGQHSQAVADLQAALRADPKDFNCWESLGEAYLSRGGYTTALKSFTKASELNPESIYSVFKVAAIQQILGKYKEAVAQYQMIIKKKEDYVPALKGLGECHLMMAKAALVDYLDGKAVDYIEKALEYFTCALQHRADVSCLWKLAGDACTCLYAVAPSKVNVHVLGVLLGQKEGKQVLKKNELLHLGGRCYGRALKLMSTSNTWCDLGINYYRQAQHLAETGSNMNDLKELLEKSLHCLKKAVRLDSNNHLYWNALGVVACYSGIGNYALAQHCFIKSIQSEQINAVAWTNLGVLYLTNENIEQAHEAFKMAQSLDPSYLMCWIGQALIAEAVGSYDTMDLFRHTTELNMHTEGALGYAYWVCTTLQDKSNRETELYQYNILQMNAIPAAQVILNKYVERIQNYAPAFTMLGYLNEHLQLKKEAANAYQRAILLLQTAEDQDTYNVAIRNYGRLLCSTGEYDKAIQAFKSTPLEVLEDIIGFALALFMKGLYKESSKAYERALSIVESEQDKAHILTALAITEYKQGKTDVAKTLLFKCSILKEPTTESLQALCALGLAMQDATLSKAALNELLKHIKHKDSNYQRCLLTSAIYALQGRSVAVQKQISKAVHSNPGDPALWSLLSRVVAQYAQRNAKGGVVAGNVAHILDSNHGKKALLYTAVNQLAMGSSSAEDEKNTALKTIQKAALLSPGDPAIWAGLMAACHADDKLALVNNTQPKRIDLYLALLSAVSASIKDEKFFENYNQSLEKWSLSQAVTGLIDTGRISEAETLCTKNLKSNPDQPAVILLLRQVQCKPLLESQKPLPDAVLEELQKTVMSNSTSVPAWQWLAHVYQSQGMMRAAEMCYRKSLQLASQRGSWSGKLSSLLRLALLALKVCMANISNDHWPSLVQEATTEALKLCFCPLAVLLQALLQFKRKMGARETRRLLERVVYQPGYPKSIASTARWYLLRHLYAKDDYELIDVLVNNAKTHGDTRALELNQRLSSQ

Target ORF information:

RefSeq Version	NM_014639.3
Organism	Homo sapiens(human)
Definition	Homo sapiens tetratricopeptide repeat domain 37 (TTC37), mRNA.

Target ORF information:

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

NM_014639.3

ORF Insert Sequence:

ATGTCCAGCA AGGAAGTGAA GACTGCTCTA AAAAGTGCTA GAGATGCAAT CAGAAACAAA 
GAATACAAAG AAGCTTTGAA ACACTGTAAG ACAGTGTTAA AGCAAGAGAA AAATAACTAT 
AATGCCTGGG TTTTTATTGG CGTTGCTGCA GCTGAACTAG AACAACCTGA TCAGGCCCAG 
AGTGCCTATA AAAAAGCTGC TGAATTAGAG CCAGACCAAT TACTAGCTTG GCAGGGGTTA 
GCAAACTTGT ATGAGAAATA TAATCACATA AATGCTAAGG ATGACTTGCC TGGTGTTTAC 
CAAAAGCTCC TGGATCTTTA TGAGAGTGTT GACAAGCAGA AGTGGTGTGA TGTCTGCAAG 
AAACTTGTGG ATCTATATTA CCAAGAAAAG AAACACCTAG AGGTGGCTCG AACATGGCAC 
AAGTTGATAA AAACACGGCA GGAACAAGGT GCAGAAAATG AAGAGCTTCA TCAACTATGG 
AGAAAATTGA CTCAGTTCCT GGCTGAAAGT ACAGAGGACC AGAATAATGA AACTCAGCAA 
TTGCTTTTTA CTGCTTTTGA GAATGCACTG GGATTATCAG ATAAGATTCC TAGTGAAGAT 
CACCAAGTAC TTTATAGGCA TTTCATTCAG AGTTTATCCA AATTTCCTCA TGAGTCTGCT 
AGATTGAAGA AGGCCTGTGA AGGAATGATA AACATCTATC CTACTGTACA GTATCCATTA 
GAAGTGCTTT GTTTGCATTT AATTGAATCA GGAAATCTTA CTGATGAGGG GCAGCAGTAT 
TGTTGTAGAT TAGTGGAAAT GGATTCAAAA AGTGGTCCAG GCCTCATTGG CTTAGGCATT 
AAAGCATTAC AAGACAAAAA GTATGAAGAT GCTGTTAGGA ACCTAACAGA AGGGTTAAAG 
GAAAGCCCTG TCTGCACAAG TGGATGGTAT CATCTGGCAG AAGCCCAAGT CAAAATGCAT 
AGACCTAAAG AAGCTGTTCT TTCATGCAGT CAAGCTCTGA AGATCGTAGA TAATCTTGGT 
GCGTCTGGTA ACAGTCTTTA TCAGAGGAAT CTTTGTCTTC ATTTGAAAGC AGAGGCTTTG 
ATTAAACTCT CAGATTATGA CTCTTCAGAG GAAGCAATTC GTACGCTTGA TCAGATTTCT 
GATGCAGATA ATATCCCAGG ACTTTTGGTT CTCAAAAGCT TGGCCTATCG GAACAAAGGT 
TCATTTGATG AAGCTGCAAA GATTATGGAA GACCTTCTCT CTTCTTACCC TGACCTAGCT 
GAAGTTCATG CCCTTGAGGC TTTGATTCAT TTCACCAAAA AGGACTATCT ACAAGCAGAA 
AAATGTTTTC AGAGAGCTCT TGAGAAAGAT ACCGAAGTTG CAGAATATCA TTACCAACTT 
GGATTAACAT ACTGGTTCAT GGGTGAAGAG ACAAGAAAAG ATAAAACAAA GGCTCTTACC 
CACTTTCTGA AGGCTGCAAG ACTGGATACA TATATGGGCA AAGTTTTCTG CTATTTAGGT 
CATTATTATA GAGACGTAGT GGGAGATAAA AACAGAGCTC GTGGATGTTA TAGGAAAGCC 
TTTGAATTAG ATGACACTGA TGCTGAATCT GGAGCTGCAG CAGTTGACCT AAGTGTGGAG 
CTTGAAGATA TGGAAATGGC TTTAGCTATC CTAACAACAG TAACTCAAAA GGCAAGTGCT 
GGAACGGCAA AATGGGCCTG GCTTAGGCGA GGACTATACT ATTTGAAAGC TGGTCAGCAT 
TCTCAAGCAG TGGCTGATTT ACAGGCAGCA TTAAGAGCAG ACCCAAAGGA CTTCAATTGT 
TGGGAATCGT TAGGAGAAGC ATACTTAAGC AGAGGAGGCT ACACAACAGC CTTGAAGTCC 
TTCACAAAAG CCAGTGAGCT GAACCCAGAA TCCATATACA GTGTGTTTAA GGTTGCAGCA 
ATACAGCAAA TCCTAGGCAA ATATAAGGAG GCTGTAGCTC AATACCAGAT GATCATTAAA 
AAGAAAGAAG ATTATGTGCC TGCTTTAAAA GGTTTGGGTG AATGCCATCT TATGATGGCA 
AAAGCAGCTC TAGTTGATTA TCTTGATGGA AAAGCCGTAG ACTACATAGA AAAAGCACTG 
GAATATTTTA CTTGTGCTCT ACAGCATCGA GCTGATGTGT CCTGCCTCTG GAAGCTAGCT 
GGGGATGCTT GTACCTGTCT GTATGCTGTC GCACCATCTA AAGTGAATGT TCATGTTTTA 
GGAGTCCTTC TAGGTCAGAA AGAAGGAAAA CAAGTATTAA AGAAAAATGA GCTCCTCCAC 
CTTGGAGGAA GGTGTTATGG TCGTGCATTA AAACTGATGT CTACATCTAA TACATGGTGT 
GACCTTGGAA TTAATTATTA TCGCCAAGCA CAACATCTAG CAGAAACAGG CAGCAACATG 
AATGATCTTA AGGAGTTGCT GGAGAAATCT TTACATTGTC TGAAAAAAGC AGTGAGACTC 
GACAGTAATA ATCACTTATA CTGGAATGCT CTTGGTGTGG TTGCATGTTA CAGTGGTATT 
GGAAATTATG CCCTTGCTCA GCACTGTTTC ATCAAATCAA TCCAGTCAGA ACAAATTAAT 
GCTGTTGCAT GGACCAACTT GGGAGTGTTA TACCTCACAA ATGAAAACAT TGAGCAAGCT 
CATGAGGCTT TCAAAATGGC TCAATCCCTT GATCCATCTT ATTTAATGTG CTGGATTGGA 
CAAGCTCTTA TTGCTGAGGC AGTTGGAAGT TATGACACCA TGGATCTCTT CAGGCACACT 
ACAGAACTAA ATATGCATAC TGAAGGAGCA TTAGGTTATG CGTATTGGGT CTGCACAACA 
TTGCAAGATA AAAGCAACAG AGAAACAGAG CTGTACCAGT ACAACATCCT CCAGATGAAT 
GCTATTCCAG CAGCACAAGT TATTTTGAAT AAATATGTAG AAAGAATTCA GAATTATGCC 
CCAGCTTTCA CAATGTTGGG TTACTTAAAC GAACATCTAC AACTGAAAAA GGAAGCAGCA 
AATGCATACC AAAGGGCAAT TTTGTTGTTA CAGACTGCAG AAGACCAAGA TACTTACAAT 
GTTGCAATAA GAAATTACGG CAGATTGTTA TGTTCCACTG GTGAATATGA TAAAGCTATC 
CAGGCTTTTA AGTCAACACC CCTTGAAGTG TTAGAAGACA TCATAGGTTT TGCATTGGCT 
TTATTCATGA AGGGGCTTTA TAAAGAGAGC AGCAAAGCCT ATGAGAGAGC CTTGTCTATT 
GTTGAATCGG AGCAAGACAA AGCCCATATC TTGACAGCTC TGGCAATAAC TGAATATAAA 
CAAGGAAAAA CGGATGTAGC CAAGACATTG CTATTTAAAT GCTCTATCTT AAAGGAACCA 
ACCACAGAAA GCCTTCAAGC CCTGTGTGCT CTAGGGTTGG CAATGCAGGA TGCTACACTG 
TCAAAAGCAG CACTTAATGA GTTACTGAAG CACATCAAAC ACAAAGACAG TAATTATCAG 
AGGTGCCTTC TTACATCAGC GATTTATGCA CTCCAAGGCC GCAGTGTGGC TGTGCAAAAA 
CAAATATCTA AAGCTGTTCA CAGCAACCCT GGTGACCCTG CTCTTTGGTC TCTGTTGTCT 
CGAGTTGTTG CACAGTATGC TCAACGAAAT GCAAAGGGAG GTGTTGTAGC AGGAAATGTG 
GCTCATATTC TGGACTCAAA TCATGGAAAG AAGGCATTAC TGTACACTGC GGTAAATCAG 
TTGGCTATGG GAAGCAGTTC AGCAGAAGAT GAAAAAAATA CTGCACTAAA GACCATTCAG 
AAGGCAGCTC TCCTTTCTCC AGGTGATCCT GCTATCTGGG CTGGGCTAAT GGCAGCCTGT 
CACGCTGATG ATAAACTGGC CTTAGTGAAC AACACTCAGC CAAAGAGGAT AGATTTATAC 
TTGGCACTGT TATCTGCTGT TTCTGCTTCA ATTAAAGACG AAAAATTCTT TGAAAATTAC 
AACCAGTCCC TTGAAAAGTG GTCTCTCTCA CAAGCTGTCA CTGGTCTAAT AGACACAGGA 
AGAATATCTG AAGCTGAAAC TCTCTGCACA AAGAATTTAA AAAGTAACCC TGATCAGCCA 
GCCGTTATCT TACTTTTGAG ACAAGTTCAG TGTAAACCAC TCCTGGAGTC ACAAAAGCCA 
CTCCCAGATG CTGTACTTGA AGAACTACAA AAAACAGTCA TGTCCAACTC AACCTCTGTT 
CCAGCTTGGC AGTGGCTGGC ACATGTGTAT CAATCCCAAG GAATGATGAG AGCTGCAGAG 
ATGTGTTACA GAAAGAGTCT ACAATTGGCA TCCCAACGGG GCAGTTGGAG TGGGAAGCTC 
TCAAGTCTGT TGAGACTAGC ACTACTTGCA TTAAAAGTCT GTATGGCTAA CATTTCCAAT 
GATCACTGGC CATCTTTGGT TCAAGAGGCT ACAACTGAGG CCTTGAAGCT TTGCTTTTGT 
CCACTGGCTG TTCTTTTACA AGCTTTGTTA CAATTCAAAC GCAAAATGGG GGCAAGAGAG 
ACACGGCGTC TTTTGGAAAG AGTGGTATAT CAGCCTGGGT ATCCCAAATC TATTGCATCA 
ACTGCACGTT GGTACCTACT GAGACACTTA TATGCCAAAG ATGACTATGA GCTTATTGAC 
GTGCTGGTAA ACAATGCCAA AACTCATGGA GATACAAGAG CATTGGAACT GAATCAGAGA 
TTGTCCTCAC AATAA

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

TTC37 ( NM_014639.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_055454.1 Homo sapiens tetratricopeptide repeat domain 37 (TTC37), mRNA.

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CloneID	OHu19701
Clone ID Related Accession (Same CDS sequence)	NM_014639.3 , NM_014639.4
Accession Version	NM_014639.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4695bp) 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	2019-12-19
Organism	Homo sapiens(human)
Product	tetratricopeptide repeat protein 37
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB002370.1 and BC015163.2. On Nov 21, 2019 this sequence version replaced NM_014639.3. ##Evidence-Data-START## Transcript exon combination :: AB002370.1, BC056893.1 [ECO:0000332] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END##

ATGTCCAGCA AGGAAGTGAA GACTGCTCTA AAAAGTGCTA GAGATGCAAT CAGAAACAAA 
GAATACAAAG AAGCTTTGAA ACACTGTAAG ACAGTGTTAA AGCAAGAGAA AAATAACTAT 
AATGCCTGGG TTTTTATTGG CGTTGCTGCA GCTGAACTAG AACAACCTGA TCAGGCCCAG 
AGTGCCTATA AAAAAGCTGC TGAATTAGAG CCAGACCAAT TACTAGCTTG GCAGGGGTTA 
GCAAACTTGT ATGAGAAATA TAATCACATA AATGCTAAGG ATGACTTGCC TGGTGTTTAC 
CAAAAGCTCC TGGATCTTTA TGAGAGTGTT GACAAGCAGA AGTGGTGTGA TGTCTGCAAG 
AAACTTGTGG ATCTATATTA CCAAGAAAAG AAACACCTAG AGGTGGCTCG AACATGGCAC 
AAGTTGATAA AAACACGGCA GGAACAAGGT GCAGAAAATG AAGAGCTTCA TCAACTATGG 
AGAAAATTGA CTCAGTTCCT GGCTGAAAGT ACAGAGGACC AGAATAATGA AACTCAGCAA 
TTGCTTTTTA CTGCTTTTGA GAATGCACTG GGATTATCAG ATAAGATTCC TAGTGAAGAT 
CACCAAGTAC TTTATAGGCA TTTCATTCAG AGTTTATCCA AATTTCCTCA TGAGTCTGCT 
AGATTGAAGA AGGCCTGTGA AGGAATGATA AACATCTATC CTACTGTACA GTATCCATTA 
GAAGTGCTTT GTTTGCATTT AATTGAATCA GGAAATCTTA CTGATGAGGG GCAGCAGTAT 
TGTTGTAGAT TAGTGGAAAT GGATTCAAAA AGTGGTCCAG GCCTCATTGG CTTAGGCATT 
AAAGCATTAC AAGACAAAAA GTATGAAGAT GCTGTTAGGA ACCTAACAGA AGGGTTAAAG 
GAAAGCCCTG TCTGCACAAG TGGATGGTAT CATCTGGCAG AAGCCCAAGT CAAAATGCAT 
AGACCTAAAG AAGCTGTTCT TTCATGCAGT CAAGCTCTGA AGATCGTAGA TAATCTTGGT 
GCGTCTGGTA ACAGTCTTTA TCAGAGGAAT CTTTGTCTTC ATTTGAAAGC AGAGGCTTTG 
ATTAAACTCT CAGATTATGA CTCTTCAGAG GAAGCAATTC GTACGCTTGA TCAGATTTCT 
GATGCAGATA ATATCCCAGG ACTTTTGGTT CTCAAAAGCT TGGCCTATCG GAACAAAGGT 
TCATTTGATG AAGCTGCAAA GATTATGGAA GACCTTCTCT CTTCTTACCC TGACCTAGCT 
GAAGTTCATG CCCTTGAGGC TTTGATTCAT TTCACCAAAA AGGACTATCT ACAAGCAGAA 
AAATGTTTTC AGAGAGCTCT TGAGAAAGAT ACCGAAGTTG CAGAATATCA TTACCAACTT 
GGATTAACAT ACTGGTTCAT GGGTGAAGAG ACAAGAAAAG ATAAAACAAA GGCTCTTACC 
CACTTTCTGA AGGCTGCAAG ACTGGATACA TATATGGGCA AAGTTTTCTG CTATTTAGGT 
CATTATTATA GAGACGTAGT GGGAGATAAA AACAGAGCTC GTGGATGTTA TAGGAAAGCC 
TTTGAATTAG ATGACACTGA TGCTGAATCT GGAGCTGCAG CAGTTGACCT AAGTGTGGAG 
CTTGAAGATA TGGAAATGGC TTTAGCTATC CTAACAACAG TAACTCAAAA GGCAAGTGCT 
GGAACGGCAA AATGGGCCTG GCTTAGGCGA GGACTATACT ATTTGAAAGC TGGTCAGCAT 
TCTCAAGCAG TGGCTGATTT ACAGGCAGCA TTAAGAGCAG ACCCAAAGGA CTTCAATTGT 
TGGGAATCGT TAGGAGAAGC ATACTTAAGC AGAGGAGGCT ACACAACAGC CTTGAAGTCC 
TTCACAAAAG CCAGTGAGCT GAACCCAGAA TCCATATACA GTGTGTTTAA GGTTGCAGCA 
ATACAGCAAA TCCTAGGCAA ATATAAGGAG GCTGTAGCTC AATACCAGAT GATCATTAAA 
AAGAAAGAAG ATTATGTGCC TGCTTTAAAA GGTTTGGGTG AATGCCATCT TATGATGGCA 
AAAGCAGCTC TAGTTGATTA TCTTGATGGA AAAGCCGTAG ACTACATAGA AAAAGCACTG 
GAATATTTTA CTTGTGCTCT ACAGCATCGA GCTGATGTGT CCTGCCTCTG GAAGCTAGCT 
GGGGATGCTT GTACCTGTCT GTATGCTGTC GCACCATCTA AAGTGAATGT TCATGTTTTA 
GGAGTCCTTC TAGGTCAGAA AGAAGGAAAA CAAGTATTAA AGAAAAATGA GCTCCTCCAC 
CTTGGAGGAA GGTGTTATGG TCGTGCATTA AAACTGATGT CTACATCTAA TACATGGTGT 
GACCTTGGAA TTAATTATTA TCGCCAAGCA CAACATCTAG CAGAAACAGG CAGCAACATG 
AATGATCTTA AGGAGTTGCT GGAGAAATCT TTACATTGTC TGAAAAAAGC AGTGAGACTC 
GACAGTAATA ATCACTTATA CTGGAATGCT CTTGGTGTGG TTGCATGTTA CAGTGGTATT 
GGAAATTATG CCCTTGCTCA GCACTGTTTC ATCAAATCAA TCCAGTCAGA ACAAATTAAT 
GCTGTTGCAT GGACCAACTT GGGAGTGTTA TACCTCACAA ATGAAAACAT TGAGCAAGCT 
CATGAGGCTT TCAAAATGGC TCAATCCCTT GATCCATCTT ATTTAATGTG CTGGATTGGA 
CAAGCTCTTA TTGCTGAGGC AGTTGGAAGT TATGACACCA TGGATCTCTT CAGGCACACT 
ACAGAACTAA ATATGCATAC TGAAGGAGCA TTAGGTTATG CGTATTGGGT CTGCACAACA 
TTGCAAGATA AAAGCAACAG AGAAACAGAG CTGTACCAGT ACAACATCCT CCAGATGAAT 
GCTATTCCAG CAGCACAAGT TATTTTGAAT AAATATGTAG AAAGAATTCA GAATTATGCC 
CCAGCTTTCA CAATGTTGGG TTACTTAAAC GAACATCTAC AACTGAAAAA GGAAGCAGCA 
AATGCATACC AAAGGGCAAT TTTGTTGTTA CAGACTGCAG AAGACCAAGA TACTTACAAT 
GTTGCAATAA GAAATTACGG CAGATTGTTA TGTTCCACTG GTGAATATGA TAAAGCTATC 
CAGGCTTTTA AGTCAACACC CCTTGAAGTG TTAGAAGACA TCATAGGTTT TGCATTGGCT 
TTATTCATGA AGGGGCTTTA TAAAGAGAGC AGCAAAGCCT ATGAGAGAGC CTTGTCTATT 
GTTGAATCGG AGCAAGACAA AGCCCATATC TTGACAGCTC TGGCAATAAC TGAATATAAA 
CAAGGAAAAA CGGATGTAGC CAAGACATTG CTATTTAAAT GCTCTATCTT AAAGGAACCA 
ACCACAGAAA GCCTTCAAGC CCTGTGTGCT CTAGGGTTGG CAATGCAGGA TGCTACACTG 
TCAAAAGCAG CACTTAATGA GTTACTGAAG CACATCAAAC ACAAAGACAG TAATTATCAG 
AGGTGCCTTC TTACATCAGC GATTTATGCA CTCCAAGGCC GCAGTGTGGC TGTGCAAAAA 
CAAATATCTA AAGCTGTTCA CAGCAACCCT GGTGACCCTG CTCTTTGGTC TCTGTTGTCT 
CGAGTTGTTG CACAGTATGC TCAACGAAAT GCAAAGGGAG GTGTTGTAGC AGGAAATGTG 
GCTCATATTC TGGACTCAAA TCATGGAAAG AAGGCATTAC TGTACACTGC GGTAAATCAG 
TTGGCTATGG GAAGCAGTTC AGCAGAAGAT GAAAAAAATA CTGCACTAAA GACCATTCAG 
AAGGCAGCTC TCCTTTCTCC AGGTGATCCT GCTATCTGGG CTGGGCTAAT GGCAGCCTGT 
CACGCTGATG ATAAACTGGC CTTAGTGAAC AACACTCAGC CAAAGAGGAT AGATTTATAC 
TTGGCACTGT TATCTGCTGT TTCTGCTTCA ATTAAAGACG AAAAATTCTT TGAAAATTAC 
AACCAGTCCC TTGAAAAGTG GTCTCTCTCA CAAGCTGTCA CTGGTCTAAT AGACACAGGA 
AGAATATCTG AAGCTGAAAC TCTCTGCACA AAGAATTTAA AAAGTAACCC TGATCAGCCA 
GCCGTTATCT TACTTTTGAG ACAAGTTCAG TGTAAACCAC TCCTGGAGTC ACAAAAGCCA 
CTCCCAGATG CTGTACTTGA AGAACTACAA AAAACAGTCA TGTCCAACTC AACCTCTGTT 
CCAGCTTGGC AGTGGCTGGC ACATGTGTAT CAATCCCAAG GAATGATGAG AGCTGCAGAG 
ATGTGTTACA GAAAGAGTCT ACAATTGGCA TCCCAACGGG GCAGTTGGAG TGGGAAGCTC 
TCAAGTCTGT TGAGACTAGC ACTACTTGCA TTAAAAGTCT GTATGGCTAA CATTTCCAAT 
GATCACTGGC CATCTTTGGT TCAAGAGGCT ACAACTGAGG CCTTGAAGCT TTGCTTTTGT 
CCACTGGCTG TTCTTTTACA AGCTTTGTTA CAATTCAAAC GCAAAATGGG GGCAAGAGAG 
ACACGGCGTC TTTTGGAAAG AGTGGTATAT CAGCCTGGGT ATCCCAAATC TATTGCATCA 
ACTGCACGTT GGTACCTACT GAGACACTTA TATGCCAAAG ATGACTATGA GCTTATTGAC 
GTGCTGGTAA ACAATGCCAA AACTCATGGA GATACAAGAG CATTGGAACT GAATCAGAGA 
TTGTCCTCAC AATAA

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

RefSeq	NP_055454.1
CDS	270..4964
Translation	MSSKEVKTALKSARDAIRNKEYKEALKHCKTVLKQEKNNYNAWVFIGVAAAELEQPDQAQSAYKKAAELEPDQLLAWQGLANLYEKYNHINAKDDLPGVYQKLLDLYESVDKQKWCDVCKKLVDLYYQEKKHLEVARTWHKLIKTRQEQGAENEELHQLWRKLTQFLAESTEDQNNETQQLLFTAFENALGLSDKIPSEDHQVLYRHFIQSLSKFPHESARLKKACEGMINIYPTVQYPLEVLCLHLIESGNLTDEGQQYCCRLVEMDSKSGPGLIGLGIKALQDKKYEDAVRNLTEGLKESPVCTSGWYHLAEAQVKMHRPKEAVLSCSQALKIVDNLGASGNSLYQRNLCLHLKAEALIKLSDYDSSEEAIRTLDQISDADNIPGLLVLKSLAYRNKGSFDEAAKIMEDLLSSYPDLAEVHALEALIHFTKKDYLQAEKCFQRALEKDTEVAEYHYQLGLTYWFMGEETRKDKTKALTHFLKAARLDTYMGKVFCYLGHYYRDVVGDKNRARGCYRKAFELDDTDAESGAAAVDLSVELEDMEMALAILTTVTQKASAGTAKWAWLRRGLYYLKAGQHSQAVADLQAALRADPKDFNCWESLGEAYLSRGGYTTALKSFTKASELNPESIYSVFKVAAIQQILGKYKEAVAQYQMIIKKKEDYVPALKGLGECHLMMAKAALVDYLDGKAVDYIEKALEYFTCALQHRADVSCLWKLAGDACTCLYAVAPSKVNVHVLGVLLGQKEGKQVLKKNELLHLGGRCYGRALKLMSTSNTWCDLGINYYRQAQHLAETGSNMNDLKELLEKSLHCLKKAVRLDSNNHLYWNALGVVACYSGIGNYALAQHCFIKSIQSEQINAVAWTNLGVLYLTNENIEQAHEAFKMAQSLDPSYLMCWIGQALIAEAVGSYDTMDLFRHTTELNMHTEGALGYAYWVCTTLQDKSNRETELYQYNILQMNAIPAAQVILNKYVERIQNYAPAFTMLGYLNEHLQLKKEAANAYQRAILLLQTAEDQDTYNVAIRNYGRLLCSTGEYDKAIQAFKSTPLEVLEDIIGFALALFMKGLYKESSKAYERALSIVESEQDKAHILTALAITEYKQGKTDVAKTLLFKCSILKEPTTESLQALCALGLAMQDATLSKAALNELLKHIKHKDSNYQRCLLTSAIYALQGRSVAVQKQISKAVHSNPGDPALWSLLSRVVAQYAQRNAKGGVVAGNVAHILDSNHGKKALLYTAVNQLAMGSSSAEDEKNTALKTIQKAALLSPGDPAIWAGLMAACHADDKLALVNNTQPKRIDLYLALLSAVSASIKDEKFFENYNQSLEKWSLSQAVTGLIDTGRISEAETLCTKNLKSNPDQPAVILLLRQVQCKPLLESQKPLPDAVLEELQKTVMSNSTSVPAWQWLAHVYQSQGMMRAAEMCYRKSLQLASQRGSWSGKLSSLLRLALLALKVCMANISNDHWPSLVQEATTEALKLCFCPLAVLLQALLQFKRKMGARETRRLLERVVYQPGYPKSIASTARWYLLRHLYAKDDYELIDVLVNNAKTHGDTRALELNQRLSSQ

Target ORF information:

RefSeq Version	NM_014639.4
Organism	Homo sapiens(human)
Definition	Homo sapiens tetratricopeptide repeat domain 37 (TTC37), mRNA.

Target ORF information:

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

NM_014639.4

ORF Insert Sequence:

ATGTCCAGCA AGGAAGTGAA GACTGCTCTA AAAAGTGCTA GAGATGCAAT CAGAAACAAA 
GAATACAAAG AAGCTTTGAA ACACTGTAAG ACAGTGTTAA AGCAAGAGAA AAATAACTAT 
AATGCCTGGG TTTTTATTGG CGTTGCTGCA GCTGAACTAG AACAACCTGA TCAGGCCCAG 
AGTGCCTATA AAAAAGCTGC TGAATTAGAG CCAGACCAAT TACTAGCTTG GCAGGGGTTA 
GCAAACTTGT ATGAGAAATA TAATCACATA AATGCTAAGG ATGACTTGCC TGGTGTTTAC 
CAAAAGCTCC TGGATCTTTA TGAGAGTGTT GACAAGCAGA AGTGGTGTGA TGTCTGCAAG 
AAACTTGTGG ATCTATATTA CCAAGAAAAG AAACACCTAG AGGTGGCTCG AACATGGCAC 
AAGTTGATAA AAACACGGCA GGAACAAGGT GCAGAAAATG AAGAGCTTCA TCAACTATGG 
AGAAAATTGA CTCAGTTCCT GGCTGAAAGT ACAGAGGACC AGAATAATGA AACTCAGCAA 
TTGCTTTTTA CTGCTTTTGA GAATGCACTG GGATTATCAG ATAAGATTCC TAGTGAAGAT 
CACCAAGTAC TTTATAGGCA TTTCATTCAG AGTTTATCCA AATTTCCTCA TGAGTCTGCT 
AGATTGAAGA AGGCCTGTGA AGGAATGATA AACATCTATC CTACTGTACA GTATCCATTA 
GAAGTGCTTT GTTTGCATTT AATTGAATCA GGAAATCTTA CTGATGAGGG GCAGCAGTAT 
TGTTGTAGAT TAGTGGAAAT GGATTCAAAA AGTGGTCCAG GCCTCATTGG CTTAGGCATT 
AAAGCATTAC AAGACAAAAA GTATGAAGAT GCTGTTAGGA ACCTAACAGA AGGGTTAAAG 
GAAAGCCCTG TCTGCACAAG TGGATGGTAT CATCTGGCAG AAGCCCAAGT CAAAATGCAT 
AGACCTAAAG AAGCTGTTCT TTCATGCAGT CAAGCTCTGA AGATCGTAGA TAATCTTGGT 
GCGTCTGGTA ACAGTCTTTA TCAGAGGAAT CTTTGTCTTC ATTTGAAAGC AGAGGCTTTG 
ATTAAACTCT CAGATTATGA CTCTTCAGAG GAAGCAATTC GTACGCTTGA TCAGATTTCT 
GATGCAGATA ATATCCCAGG ACTTTTGGTT CTCAAAAGCT TGGCCTATCG GAACAAAGGT 
TCATTTGATG AAGCTGCAAA GATTATGGAA GACCTTCTCT CTTCTTACCC TGACCTAGCT 
GAAGTTCATG CCCTTGAGGC TTTGATTCAT TTCACCAAAA AGGACTATCT ACAAGCAGAA 
AAATGTTTTC AGAGAGCTCT TGAGAAAGAT ACCGAAGTTG CAGAATATCA TTACCAACTT 
GGATTAACAT ACTGGTTCAT GGGTGAAGAG ACAAGAAAAG ATAAAACAAA GGCTCTTACC 
CACTTTCTGA AGGCTGCAAG ACTGGATACA TATATGGGCA AAGTTTTCTG CTATTTAGGT 
CATTATTATA GAGACGTAGT GGGAGATAAA AACAGAGCTC GTGGATGTTA TAGGAAAGCC 
TTTGAATTAG ATGACACTGA TGCTGAATCT GGAGCTGCAG CAGTTGACCT AAGTGTGGAG 
CTTGAAGATA TGGAAATGGC TTTAGCTATC CTAACAACAG TAACTCAAAA GGCAAGTGCT 
GGAACGGCAA AATGGGCCTG GCTTAGGCGA GGACTATACT ATTTGAAAGC TGGTCAGCAT 
TCTCAAGCAG TGGCTGATTT ACAGGCAGCA TTAAGAGCAG ACCCAAAGGA CTTCAATTGT 
TGGGAATCGT TAGGAGAAGC ATACTTAAGC AGAGGAGGCT ACACAACAGC CTTGAAGTCC 
TTCACAAAAG CCAGTGAGCT GAACCCAGAA TCCATATACA GTGTGTTTAA GGTTGCAGCA 
ATACAGCAAA TCCTAGGCAA ATATAAGGAG GCTGTAGCTC AATACCAGAT GATCATTAAA 
AAGAAAGAAG ATTATGTGCC TGCTTTAAAA GGTTTGGGTG AATGCCATCT TATGATGGCA 
AAAGCAGCTC TAGTTGATTA TCTTGATGGA AAAGCCGTAG ACTACATAGA AAAAGCACTG 
GAATATTTTA CTTGTGCTCT ACAGCATCGA GCTGATGTGT CCTGCCTCTG GAAGCTAGCT 
GGGGATGCTT GTACCTGTCT GTATGCTGTC GCACCATCTA AAGTGAATGT TCATGTTTTA 
GGAGTCCTTC TAGGTCAGAA AGAAGGAAAA CAAGTATTAA AGAAAAATGA GCTCCTCCAC 
CTTGGAGGAA GGTGTTATGG TCGTGCATTA AAACTGATGT CTACATCTAA TACATGGTGT 
GACCTTGGAA TTAATTATTA TCGCCAAGCA CAACATCTAG CAGAAACAGG CAGCAACATG 
AATGATCTTA AGGAGTTGCT GGAGAAATCT TTACATTGTC TGAAAAAAGC AGTGAGACTC 
GACAGTAATA ATCACTTATA CTGGAATGCT CTTGGTGTGG TTGCATGTTA CAGTGGTATT 
GGAAATTATG CCCTTGCTCA GCACTGTTTC ATCAAATCAA TCCAGTCAGA ACAAATTAAT 
GCTGTTGCAT GGACCAACTT GGGAGTGTTA TACCTCACAA ATGAAAACAT TGAGCAAGCT 
CATGAGGCTT TCAAAATGGC TCAATCCCTT GATCCATCTT ATTTAATGTG CTGGATTGGA 
CAAGCTCTTA TTGCTGAGGC AGTTGGAAGT TATGACACCA TGGATCTCTT CAGGCACACT 
ACAGAACTAA ATATGCATAC TGAAGGAGCA TTAGGTTATG CGTATTGGGT CTGCACAACA 
TTGCAAGATA AAAGCAACAG AGAAACAGAG CTGTACCAGT ACAACATCCT CCAGATGAAT 
GCTATTCCAG CAGCACAAGT TATTTTGAAT AAATATGTAG AAAGAATTCA GAATTATGCC 
CCAGCTTTCA CAATGTTGGG TTACTTAAAC GAACATCTAC AACTGAAAAA GGAAGCAGCA 
AATGCATACC AAAGGGCAAT TTTGTTGTTA CAGACTGCAG AAGACCAAGA TACTTACAAT 
GTTGCAATAA GAAATTACGG CAGATTGTTA TGTTCCACTG GTGAATATGA TAAAGCTATC 
CAGGCTTTTA AGTCAACACC CCTTGAAGTG TTAGAAGACA TCATAGGTTT TGCATTGGCT 
TTATTCATGA AGGGGCTTTA TAAAGAGAGC AGCAAAGCCT ATGAGAGAGC CTTGTCTATT 
GTTGAATCGG AGCAAGACAA AGCCCATATC TTGACAGCTC TGGCAATAAC TGAATATAAA 
CAAGGAAAAA CGGATGTAGC CAAGACATTG CTATTTAAAT GCTCTATCTT AAAGGAACCA 
ACCACAGAAA GCCTTCAAGC CCTGTGTGCT CTAGGGTTGG CAATGCAGGA TGCTACACTG 
TCAAAAGCAG CACTTAATGA GTTACTGAAG CACATCAAAC ACAAAGACAG TAATTATCAG 
AGGTGCCTTC TTACATCAGC GATTTATGCA CTCCAAGGCC GCAGTGTGGC TGTGCAAAAA 
CAAATATCTA AAGCTGTTCA CAGCAACCCT GGTGACCCTG CTCTTTGGTC TCTGTTGTCT 
CGAGTTGTTG CACAGTATGC TCAACGAAAT GCAAAGGGAG GTGTTGTAGC AGGAAATGTG 
GCTCATATTC TGGACTCAAA TCATGGAAAG AAGGCATTAC TGTACACTGC GGTAAATCAG 
TTGGCTATGG GAAGCAGTTC AGCAGAAGAT GAAAAAAATA CTGCACTAAA GACCATTCAG 
AAGGCAGCTC TCCTTTCTCC AGGTGATCCT GCTATCTGGG CTGGGCTAAT GGCAGCCTGT 
CACGCTGATG ATAAACTGGC CTTAGTGAAC AACACTCAGC CAAAGAGGAT AGATTTATAC 
TTGGCACTGT TATCTGCTGT TTCTGCTTCA ATTAAAGACG AAAAATTCTT TGAAAATTAC 
AACCAGTCCC TTGAAAAGTG GTCTCTCTCA CAAGCTGTCA CTGGTCTAAT AGACACAGGA 
AGAATATCTG AAGCTGAAAC TCTCTGCACA AAGAATTTAA AAAGTAACCC TGATCAGCCA 
GCCGTTATCT TACTTTTGAG ACAAGTTCAG TGTAAACCAC TCCTGGAGTC ACAAAAGCCA 
CTCCCAGATG CTGTACTTGA AGAACTACAA AAAACAGTCA TGTCCAACTC AACCTCTGTT 
CCAGCTTGGC AGTGGCTGGC ACATGTGTAT CAATCCCAAG GAATGATGAG AGCTGCAGAG 
ATGTGTTACA GAAAGAGTCT ACAATTGGCA TCCCAACGGG GCAGTTGGAG TGGGAAGCTC 
TCAAGTCTGT TGAGACTAGC ACTACTTGCA TTAAAAGTCT GTATGGCTAA CATTTCCAAT 
GATCACTGGC CATCTTTGGT TCAAGAGGCT ACAACTGAGG CCTTGAAGCT TTGCTTTTGT 
CCACTGGCTG TTCTTTTACA AGCTTTGTTA CAATTCAAAC GCAAAATGGG GGCAAGAGAG 
ACACGGCGTC TTTTGGAAAG AGTGGTATAT CAGCCTGGGT ATCCCAAATC TATTGCATCA 
ACTGCACGTT GGTACCTACT GAGACACTTA TATGCCAAAG ATGACTATGA GCTTATTGAC 
GTGCTGGTAA ACAATGCCAA AACTCATGGA GATACAAGAG CATTGGAACT GAATCAGAGA 
TTGTCCTCAC AATAA

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

PubMed

Novel mutations in SKIV2L and TTC37 genes in Malaysian children with trichohepatoenteric syndrome.
Gene586(1)1-6(2016 Jul)
Lee WS,Teo KM,Ng RT,Chong SY,Kee BP,Chua KH

Identifying Mutations of the Tetratricopeptide Repeat Domain 37 (TTC37) Gene in Infants With Intractable Diarrhea and a Comparison of Asian and Non-Asian Phenotype and Genotype: A Global Case-report Study of a Well-Defined Syndrome With Immunodeficiency.
Medicine95(9)e2918(2016 Mar)
Lee WI,Huang JL,Chen CC,Lin JL,Wu RC,Jaing TH,Ou LS

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TTC37 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:

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