Umodl1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Umodl1
Entrez Gene ID	365544
Full Name	uromodulin-like 1
Synonyms	RGD1566039
General protein information	Preferred Names uromodulin-like 1 Names uromodulin-like 1
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 20 Map Location: 20p12

mRNA and Protein(s)

mRNA	Protein	Name
XM_008774918.1	XP_008773140.1	uromodulin-like 1 isoform X2
XM_008772853.1	XP_008771075.1	uromodulin-like 1 isoform X1

Pathways from BioSystems

Homologies

Bos taurus (cattle)	UMODL1	XP_002685169.2
Rattus norvegicus (Norway rat)	Umodl1	XP_006256300.1
Xenopus tropicalis (tropical clawed frog)	umodl1	NP_001123844.1
Canis lupus familiaris (dog)	UMODL1	XP_544901.4
Mus musculus (house mouse)	Umodl1	NP_803416.2
Homo sapiens (human)	UMODL1	NP_775839.3
Pan troglodytes (chimpanzee)	UMODL1	XP_003319135.2
	UMODL1	XP_002803165.1
Gallus gallus (chicken)	UMODL1	XP_425557.4
Danio rerio (zebrafish)	umodl1	XP_696200.4

Gene Ontology

The following Umodl1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Umodl1 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)	Select
ORa48738	XM_008774918.1 Latest version!	Rattus norvegicus uromodulin-like 1 (Umodl1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa48739	XM_008772853.1 Latest version!	Rattus norvegicus uromodulin-like 1 (Umodl1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00

ORF Online Only Promotion

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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)

Umodl1 ( XM_008774918.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008773140.1 Rattus norvegicus uromodulin-like 1 (Umodl1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ORa48738
Clone ID Related Accession (Same CDS sequence)	XM_008774918.1
Accession Version	XM_008774918.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3888bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	uromodulin-like 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000088.1) 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 :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCCGGG CCCTGGGGCT GGCCCTCCTG GCCTTGACAT GCACTGTGGA CCTGGGCCAG 
ACCAGTGGTT TTACAGAAAA TGGCCTCTCT CTGCTGAGTT ACCAGCTGTG CAGCTACCCC 
ATGACCCGAA GTGTCCAGAA GCTGCAGGCG GTGCAGACCT CTTACACAGC CTACGTATAT 
TGTGGAGGAT GGATCCCCTG GAAAAAGTGC CCCAAGACCG TGTACCGGAC CCAATACCTG 
GAGATGAACG TCCCTGAGTC CAGGAATGTG ACCGACTGCT GTGCAGGTTT TGAGCAGCTT 
GGCCTCTACT GTGTTCTGTC CCGGAACCGG TCCAGGGAGT TTGCATCGAG ACCCGGGGTC 
TGCCCAACAG CTGAGCCAGG GCCATTTACA TCTTCATGCA GCTTGGACAC AGACTGCCCT 
GGACTTCAGA AGTGCTGCGC CTGGCCAGGC GGGCACCGCT GTGTGTCCCC TACACCCACA 
GGTACAGAGA GGAGCATAGT GGGCTGGTAC AATGTCACTG TGCTGGTGAA GATGGGCTTC 
GAGGACCTGC AGAGAGAGGA CCCTGGGCTC CGGAACCACA CGCGCCTGCT CTACTCTTTG 
GTCACCAGTG CCTTGCAGCC TCTGAACCCA GCTGTACACT ACCTGACCTC AACTGGTGGC 
AAGGACACAT TCACCACAGT GTCATGGCTG CTGCTGGGCT TCCCACAGCG CATGACTGTA 
GCCAATGTCT CCACCATGTT GGATGACATG GTGAATAGAG TCTATGAGGT GATCAGCATC 
CAGGTGCAAG ACGTGAACGA GTGTCTTCAC AGTGAGCTCC AAGCCTGCTC TGAAGGAAAA 
CAGTGCTGGA ACCTGGAGGG CTCCTACCAA TGTGTGTCTC CCCAGCAGCT GACCACCTTG 
CCTTCCCAGC ATCTGAACCA CACAGATAAA GACTGCCCTC CAATCCGAGA CTTCGTGGCG 
CTTGACGTCA CCAGCAGCAG TTTCCATGTG TCCTGGAGTT TGAATTCCAC TCAGAACCAC 
ACTTTCCACG TACAAGTGTA CAAGGGCAGA GAAATACTCA GAAGCACTTG GACAGGGGAC 
CGGACTCTGG CTGTGCCTGA TTTGGAGGCC GGAGTACTTT ACAGAGTGAG GACTAGCTAC 
CAGGGGTGCC GGGCCAACAT CTCTGCCACA CTGGTTGTCA AGACAGATGC TCGGGTTTTC 
CAGGTCACGA TACGGATCAT GAACCGAAAC CTGACAGAAC AGATTCTCAA CTGCAGCAGC 
AGGGAATTCT GGAACTTTTC TCGACAGCTG TTTCAGGAGG TGGAAAACTC CTTCCCCCAA 
GTCATTTCTA ACATGTACAG ACAGGGGAGG CTGAAGATGC AGATCGTGTC TCTGAAGGCA 
GGGAGTCTGG TGGTGACGCT TAGACTCACC CTGCAAGATC CTGACTTTCT AGTGAATGTT 
GGCACACTGA AACCCATGTT GCAGCCTCTG TCTATGAGCA CTGTGTTCCA GGTTGACCAG 
CAGGGGACAC GAGTGCAAGA CTGGGACGAG TGTGCACACA GCTCAGAACA TGACTGCCAC 
CCAGCCGCAC GCTGCATCAA CCTGGAGGGC TCCTACACAT GCCAGTGCCT CACAGCCAGG 
GACGCCAACC CCTCCAGGGC TGGCAGGGTC TGCGAGGGTG ACATGGTGAC TCCCACAGGA 
GGTGGACTGT CTGTTGAAAC AACGAAGGTC AAAGCCGCAG CTGTCAGTAT GGGAATAACA 
ACCTTTGGCC CAGAGACCCT CACCTTGTCA CCAAGTTCCG AGCATCTAAG GAGCACCCCA 
GCAGAAGGCC AAGCCTCGAC CCTAGGGCCT CCATCTAGGA GAGATGGTGG TAGCACAGCC 
AGGCAAGATA GGAATAGCAC AGGACAGGAT GTGGAGGTGC CCAACGTGAC CCAGAACCCG 
CACACCACGA GAGAGTCACA GGAACACATG ACCAAAGGTC CACCCTTCCT GACCGCTAGA 
TCCACGGGCT ATGTTGTGTG GCACCCTAGT CCCACTTGGG AGACACCTCT GAAATCCACA 
AGACCGCAGA ACGAAGACCC TCCACCTTCC TCTTTCCCAG GCCCACCATC GACCCTAGTT 
GCTGTGACTC CAGAGACCCC TGCCTGTGTT CCTGGACCCA TTGGAAAGGT CACAATCTCT 
AATGTGACCA GTACCAGCTT CTCCCTCAAG TGGTCGGCAG ACCTCCACCT CTCCCCTGCC 
TTCTGCCTCA CATTGGTCTC TCCTCGGGGC CCCGCCAAGA CTATGGAGAC CCAGCACAAT 
AATGTGACAT TGTCAGGGCT GGAACTTGGA ACCTTGTACC TGGTGGAGAT TATGGCTAAG 
GTGTGTGGGA AGGAAGGTGC CAGAACACAG CTGAAAGTGC GGACAACGGC CCACAAACTC 
ACTGGTAAAG TTCGGATCCC AAGCATGCAG TATTCGGAAT CCTTCCGCAA TGCCAGCAGC 
AGGGAGCATC AAGAGTTCGT ACAAATGTTC TTCAGGACGG TGCGGGACTC TCTTCCAGCC 
ACGCTTCGTC AGCACATGGA CGAGGGCAGG ATCCAAGTGG ACATCATCAA CATCACAAAT 
GGCAGCGTCG TGGTGGAGTT TAATTTGCTA ATGACAGCAG ACCTGGATGT CAGGGAGGTG 
TCTGCTGGCT TCCTCTCTGC CTTCCAGAAC ACATCGATGC TGGAGGTAGT CAGAGGCAAA 
ACCATTATAC AAGATTACAA TGAATGCGAC ATGAGGGAGG ATGACTGTGC CCCTGGGACG 
TGCACGAACA CCTTTGGGTC TTTTACGTGT AGCTGTGATG GGGAAAGACC TAACTCACAG 
GTGGAATATT CTGGAAGATC CTGTGATGAT GCCAGCTCCA CACCCCAGGA CCTGCCCCTC 
AGACTCAACT TGACGGATGC CGTTCGTGTG TCCTGTGAGA TCGAAATGGT GGTCATCGCC 
ATCCAGAAGC GCTTTCTGCA GCAGGAGGCC ATACCCGAGG CTTCCCTGTA CCTGGGAGAG 
CCGTCCTGCA ACGTGAGCAG AAGCAACAGC ACACACGTGT TCCTGGTGAC TGGCTGGGGC 
CAATGCGGGA CCCTCGTACA GAGCAACATG ACCACCACAG TGGTGAAGAC CACGCTGAGG 
AACGACCTGT CCCCAGAGGG CGTCATCCAC CACCTGCAGA TCCTCAGTCC CATCCACTGT 
GCCTTCCAGA ATGACCTTCT GACCTCCTCG GGCTACACCC CACAGTGGGG GGTCTACACC 
GTCATCGAAG ACCTCCATGG TACCGGCAAT TTTGTCACGG AAATGCAGCT GTTCATTGGC 
GATTCTCCCA TACCCCAGAA CTATAGCGTG TCCGCCAGCG ATGAGATCAA GATCGAGGTG 
GAGCTTCACA GGCAGAAGAG CAATCTGAAG GTCGTGTTGA CTGAGTGCTG GGCCACCCCC 
TCCAGCAACG CCAAGGACCC CGTCACCTTC GGCTTCATCA ATAACAGCTG CCCCGTTCCC 
AACACCTACA CCAGCGTGAT CCAGAACGGC AACTCCAGCA AGGCCCAGTT CAAGCTGAGA 
ATCTTCTCCT TCATCAACAA CTCCATCGTC TACCTGCACT GCAAGCTGAG AGTGTGCATG 
GAGAACCCCA GGAACTCCTG CAGAATAAAC TGCAATGACT TCCGGTTATT GAGAAGCAGT 
GAAGCCATAC ACCAGATGAC CTGGGGGCCC CTCCATCGGT CTGAAGGTGC ACAGGCATGT 
ACAAAGCCAG GCCTGGGGAC TGGTTACATC ATTCTCATAG CAGCAGCTGT GCTTGTGGTG 
GTGGCAGGGG CCGCAACCCT TCTGATCTTG CGTTACCAGA GGGTAAAGCA GAAATACAAT 
CTTCGAATCC AGTCTGACGA CTTCAGCTAC CAAGTGTTCT CTCAGTAG

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

RefSeq	XP_008773140.1
CDS	104..3991
Translation	MSRALGLALLALTCTVDLGQTSGFTENGLSLLSYQLCSYPMTRSVQKLQAVQTSYTAYVYCGGWIPWKKCPKTVYRTQYLEMNVPESRNVTDCCAGFEQLGLYCVLSRNRSREFASRPGVCPTAEPGPFTSSCSLDTDCPGLQKCCAWPGGHRCVSPTPTGTERSIVGWYNVTVLVKMGFEDLQREDPGLRNHTRLLYSLVTSALQPLNPAVHYLTSTGGKDTFTTVSWLLLGFPQRMTVANVSTMLDDMVNRVYEVISIQVQDVNECLHSELQACSEGKQCWNLEGSYQCVSPQQLTTLPSQHLNHTDKDCPPIRDFVALDVTSSSFHVSWSLNSTQNHTFHVQVYKGREILRSTWTGDRTLAVPDLEAGVLYRVRTSYQGCRANISATLVVKTDARVFQVTIRIMNRNLTEQILNCSSREFWNFSRQLFQEVENSFPQVISNMYRQGRLKMQIVSLKAGSLVVTLRLTLQDPDFLVNVGTLKPMLQPLSMSTVFQVDQQGTRVQDWDECAHSSEHDCHPAARCINLEGSYTCQCLTARDANPSRAGRVCEGDMVTPTGGGLSVETTKVKAAAVSMGITTFGPETLTLSPSSEHLRSTPAEGQASTLGPPSRRDGGSTARQDRNSTGQDVEVPNVTQNPHTTRESQEHMTKGPPFLTARSTGYVVWHPSPTWETPLKSTRPQNEDPPPSSFPGPPSTLVAVTPETPACVPGPIGKVTISNVTSTSFSLKWSADLHLSPAFCLTLVSPRGPAKTMETQHNNVTLSGLELGTLYLVEIMAKVCGKEGARTQLKVRTTAHKLTGKVRIPSMQYSESFRNASSREHQEFVQMFFRTVRDSLPATLRQHMDEGRIQVDIINITNGSVVVEFNLLMTADLDVREVSAGFLSAFQNTSMLEVVRGKTIIQDYNECDMREDDCAPGTCTNTFGSFTCSCDGERPNSQVEYSGRSCDDASSTPQDLPLRLNLTDAVRVSCEIEMVVIAIQKRFLQQEAIPEASLYLGEPSCNVSRSNSTHVFLVTGWGQCGTLVQSNMTTTVVKTTLRNDLSPEGVIHHLQILSPIHCAFQNDLLTSSGYTPQWGVYTVIEDLHGTGNFVTEMQLFIGDSPIPQNYSVSASDEIKIEVELHRQKSNLKVVLTECWATPSSNAKDPVTFGFINNSCPVPNTYTSVIQNGNSSKAQFKLRIFSFINNSIVYLHCKLRVCMENPRNSCRINCNDFRLLRSSEAIHQMTWGPLHRSEGAQACTKPGLGTGYIILIAAAVLVVVAGAATLLILRYQRVKQKYNLRIQSDDFSYQVFSQ

Target ORF information:

RefSeq Version	XM_008774918.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus uromodulin-like 1 (Umodl1), transcript variant X2, mRNA.

Target ORF information:

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

XM_008774918.1

ORF Insert Sequence:

ATGTCCCGGG CCCTGGGGCT GGCCCTCCTG GCCTTGACAT GCACTGTGGA CCTGGGCCAG 
ACCAGTGGTT TTACAGAAAA TGGCCTCTCT CTGCTGAGTT ACCAGCTGTG CAGCTACCCC 
ATGACCCGAA GTGTCCAGAA GCTGCAGGCG GTGCAGACCT CTTACACAGC CTACGTATAT 
TGTGGAGGAT GGATCCCCTG GAAAAAGTGC CCCAAGACCG TGTACCGGAC CCAATACCTG 
GAGATGAACG TCCCTGAGTC CAGGAATGTG ACCGACTGCT GTGCAGGTTT TGAGCAGCTT 
GGCCTCTACT GTGTTCTGTC CCGGAACCGG TCCAGGGAGT TTGCATCGAG ACCCGGGGTC 
TGCCCAACAG CTGAGCCAGG GCCATTTACA TCTTCATGCA GCTTGGACAC AGACTGCCCT 
GGACTTCAGA AGTGCTGCGC CTGGCCAGGC GGGCACCGCT GTGTGTCCCC TACACCCACA 
GGTACAGAGA GGAGCATAGT GGGCTGGTAC AATGTCACTG TGCTGGTGAA GATGGGCTTC 
GAGGACCTGC AGAGAGAGGA CCCTGGGCTC CGGAACCACA CGCGCCTGCT CTACTCTTTG 
GTCACCAGTG CCTTGCAGCC TCTGAACCCA GCTGTACACT ACCTGACCTC AACTGGTGGC 
AAGGACACAT TCACCACAGT GTCATGGCTG CTGCTGGGCT TCCCACAGCG CATGACTGTA 
GCCAATGTCT CCACCATGTT GGATGACATG GTGAATAGAG TCTATGAGGT GATCAGCATC 
CAGGTGCAAG ACGTGAACGA GTGTCTTCAC AGTGAGCTCC AAGCCTGCTC TGAAGGAAAA 
CAGTGCTGGA ACCTGGAGGG CTCCTACCAA TGTGTGTCTC CCCAGCAGCT GACCACCTTG 
CCTTCCCAGC ATCTGAACCA CACAGATAAA GACTGCCCTC CAATCCGAGA CTTCGTGGCG 
CTTGACGTCA CCAGCAGCAG TTTCCATGTG TCCTGGAGTT TGAATTCCAC TCAGAACCAC 
ACTTTCCACG TACAAGTGTA CAAGGGCAGA GAAATACTCA GAAGCACTTG GACAGGGGAC 
CGGACTCTGG CTGTGCCTGA TTTGGAGGCC GGAGTACTTT ACAGAGTGAG GACTAGCTAC 
CAGGGGTGCC GGGCCAACAT CTCTGCCACA CTGGTTGTCA AGACAGATGC TCGGGTTTTC 
CAGGTCACGA TACGGATCAT GAACCGAAAC CTGACAGAAC AGATTCTCAA CTGCAGCAGC 
AGGGAATTCT GGAACTTTTC TCGACAGCTG TTTCAGGAGG TGGAAAACTC CTTCCCCCAA 
GTCATTTCTA ACATGTACAG ACAGGGGAGG CTGAAGATGC AGATCGTGTC TCTGAAGGCA 
GGGAGTCTGG TGGTGACGCT TAGACTCACC CTGCAAGATC CTGACTTTCT AGTGAATGTT 
GGCACACTGA AACCCATGTT GCAGCCTCTG TCTATGAGCA CTGTGTTCCA GGTTGACCAG 
CAGGGGACAC GAGTGCAAGA CTGGGACGAG TGTGCACACA GCTCAGAACA TGACTGCCAC 
CCAGCCGCAC GCTGCATCAA CCTGGAGGGC TCCTACACAT GCCAGTGCCT CACAGCCAGG 
GACGCCAACC CCTCCAGGGC TGGCAGGGTC TGCGAGGGTG ACATGGTGAC TCCCACAGGA 
GGTGGACTGT CTGTTGAAAC AACGAAGGTC AAAGCCGCAG CTGTCAGTAT GGGAATAACA 
ACCTTTGGCC CAGAGACCCT CACCTTGTCA CCAAGTTCCG AGCATCTAAG GAGCACCCCA 
GCAGAAGGCC AAGCCTCGAC CCTAGGGCCT CCATCTAGGA GAGATGGTGG TAGCACAGCC 
AGGCAAGATA GGAATAGCAC AGGACAGGAT GTGGAGGTGC CCAACGTGAC CCAGAACCCG 
CACACCACGA GAGAGTCACA GGAACACATG ACCAAAGGTC CACCCTTCCT GACCGCTAGA 
TCCACGGGCT ATGTTGTGTG GCACCCTAGT CCCACTTGGG AGACACCTCT GAAATCCACA 
AGACCGCAGA ACGAAGACCC TCCACCTTCC TCTTTCCCAG GCCCACCATC GACCCTAGTT 
GCTGTGACTC CAGAGACCCC TGCCTGTGTT CCTGGACCCA TTGGAAAGGT CACAATCTCT 
AATGTGACCA GTACCAGCTT CTCCCTCAAG TGGTCGGCAG ACCTCCACCT CTCCCCTGCC 
TTCTGCCTCA CATTGGTCTC TCCTCGGGGC CCCGCCAAGA CTATGGAGAC CCAGCACAAT 
AATGTGACAT TGTCAGGGCT GGAACTTGGA ACCTTGTACC TGGTGGAGAT TATGGCTAAG 
GTGTGTGGGA AGGAAGGTGC CAGAACACAG CTGAAAGTGC GGACAACGGC CCACAAACTC 
ACTGGTAAAG TTCGGATCCC AAGCATGCAG TATTCGGAAT CCTTCCGCAA TGCCAGCAGC 
AGGGAGCATC AAGAGTTCGT ACAAATGTTC TTCAGGACGG TGCGGGACTC TCTTCCAGCC 
ACGCTTCGTC AGCACATGGA CGAGGGCAGG ATCCAAGTGG ACATCATCAA CATCACAAAT 
GGCAGCGTCG TGGTGGAGTT TAATTTGCTA ATGACAGCAG ACCTGGATGT CAGGGAGGTG 
TCTGCTGGCT TCCTCTCTGC CTTCCAGAAC ACATCGATGC TGGAGGTAGT CAGAGGCAAA 
ACCATTATAC AAGATTACAA TGAATGCGAC ATGAGGGAGG ATGACTGTGC CCCTGGGACG 
TGCACGAACA CCTTTGGGTC TTTTACGTGT AGCTGTGATG GGGAAAGACC TAACTCACAG 
GTGGAATATT CTGGAAGATC CTGTGATGAT GCCAGCTCCA CACCCCAGGA CCTGCCCCTC 
AGACTCAACT TGACGGATGC CGTTCGTGTG TCCTGTGAGA TCGAAATGGT GGTCATCGCC 
ATCCAGAAGC GCTTTCTGCA GCAGGAGGCC ATACCCGAGG CTTCCCTGTA CCTGGGAGAG 
CCGTCCTGCA ACGTGAGCAG AAGCAACAGC ACACACGTGT TCCTGGTGAC TGGCTGGGGC 
CAATGCGGGA CCCTCGTACA GAGCAACATG ACCACCACAG TGGTGAAGAC CACGCTGAGG 
AACGACCTGT CCCCAGAGGG CGTCATCCAC CACCTGCAGA TCCTCAGTCC CATCCACTGT 
GCCTTCCAGA ATGACCTTCT GACCTCCTCG GGCTACACCC CACAGTGGGG GGTCTACACC 
GTCATCGAAG ACCTCCATGG TACCGGCAAT TTTGTCACGG AAATGCAGCT GTTCATTGGC 
GATTCTCCCA TACCCCAGAA CTATAGCGTG TCCGCCAGCG ATGAGATCAA GATCGAGGTG 
GAGCTTCACA GGCAGAAGAG CAATCTGAAG GTCGTGTTGA CTGAGTGCTG GGCCACCCCC 
TCCAGCAACG CCAAGGACCC CGTCACCTTC GGCTTCATCA ATAACAGCTG CCCCGTTCCC 
AACACCTACA CCAGCGTGAT CCAGAACGGC AACTCCAGCA AGGCCCAGTT CAAGCTGAGA 
ATCTTCTCCT TCATCAACAA CTCCATCGTC TACCTGCACT GCAAGCTGAG AGTGTGCATG 
GAGAACCCCA GGAACTCCTG CAGAATAAAC TGCAATGACT TCCGGTTATT GAGAAGCAGT 
GAAGCCATAC ACCAGATGAC CTGGGGGCCC CTCCATCGGT CTGAAGGTGC ACAGGCATGT 
ACAAAGCCAG GCCTGGGGAC TGGTTACATC ATTCTCATAG CAGCAGCTGT GCTTGTGGTG 
GTGGCAGGGG CCGCAACCCT TCTGATCTTG CGTTACCAGA GGGTAAAGCA GAAATACAAT 
CTTCGAATCC AGTCTGACGA CTTCAGCTAC CAAGTGTTCT CTCAGTAG

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

Umodl1 ( XM_008772853.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008771075.1 Rattus norvegicus uromodulin-like 1 (Umodl1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa48739
Clone ID Related Accession (Same CDS sequence)	XM_008772853.1
Accession Version	XM_008772853.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3672bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	uromodulin-like 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005119.4) 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 :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 4% of CDS bases ##RefSeq-Attributes-END##

ATGTCCCGGG CCCTGGGGCT GGCCCTCCTG GCCTTGACAT GCACTGTGGA CCTGGGCCAG 
ACCAGTGGTT TTACAGAAAA TGGCCTCTCT CTGCTGAGTT ACCAGCTGTG CAGCTACCCC 
ATGACCCGAA GTGTCCAGAA GCTGCAGGCG GTGCAGACCT CTTACACAGC CTACGTATAT 
TGTGGAGGAT GGATCCCCTG GAAAAAGTGC CCCAAGACCG TGTACCGGAC CCAATACCTG 
GAGATGAACG TCCCTGAGTC CAGGAATGTG ACCGACTGCT GTGCAGGTTT TGAGCAGCTT 
GGCCTCTACT GTGTTCTGTC CCGGAACCGG TCCAGGGAGT TTGCATCGAG ACCCGGGGTC 
TGCCCAACAG CTGAGCCAGG GCCATTTACA TCTTCATGCA GCTTGGACAC AGACTGCCCT 
GGACTTCAGA AGTGCTGCGC CTGGCCAGGC GGGCACCGCT GTGTGTCCCC TACACCCACA 
GGTACAGAGA GGAGCATAGT GGGCTGGTAC AATGTCACTG TGCTGGTGAA GATGGGCTTC 
GAGGACCTGC AGAGAGAGGA CCCTGGGCTC CGGAACCACA CGCGCCTGCT CTACTCTTTG 
GTCACCAGTG CCTTGCAGCC TCTGAACCCA GCTGTACACT ACCTGACCTC AACTGGTGGC 
AAGGACACAT TCACCACAGT GTCATGGCTG CTGCTGGGCT TCCCACAGCG CATGACTGTA 
GCCAATGTCT CCACCATGTT GGATGACATG GTGAATAGAG TCTATGAGGT GATCAGCATC 
CAGGTGCAAG ACGTGAACGA GTGTCTTCAC AGTGAGCTCC AAGCCTGCTC TGAAGGAAAA 
CAGTGCTGGA ACCTGGAGGG CTCCTACCAA TGTGTGTCTC CCCAGCAGCT GACCACCTTG 
CCTTCCCAGC ATCTGAACCA CACAGATAAA GACTGCCCTC CAATCCGAGA CTTCGTGGCG 
CTTGACGTCA CCAGCAGCAG TTTCCATGTG TCCTGGAGTT TGAATTCCAC TCAGAACCAC 
ACTTTCCACG TACAAGTGTA CAAGGGCAGA GAAATACTCA GAAGCACTTG GACAGGGGAC 
CGGACTCTGG CTGTGCCTGA TTTGGAGGCC GGAGTACTTT ACAGAGTGAG GACTAGCTAC 
CAGGGGTGCC GGGCCAACAT CTCTGCCACA CTGGTTGTCA AGACAGATGC TCGGGTTTTC 
CAGGTCACGA TACGGATCAT GAACCGAAAC CTGACAGAAC AGATTCTCAA CTGCAGCAGC 
AGGGAATTCT GGAACTTTTC TCGACAGCTG TTTCAGGAGG TGGAAAACTC CTTCCCCCAA 
GTCATTTCTA ACATGTACAG ACAGGGGAGG CTGAAGATGC AGATCGTGTC TCTGAAGGCA 
GGGAGTCTGG TGGTGACGCT TAGACTCACC CTGCAAGATC CTGACTTTCT AGTGAATGTT 
GGCACACTGA AACCCATGTT GCAGCCTCTG TCTATGAGCA CTGTGTTCCA GGTTGACCAG 
CAGGGGACAC GAGTGCAAGA CTGGGACGAG TGTGCACACA GCTCAGAACA TGACTGCCAC 
CCAGCCGCAC GCTGCATCAA CCTGGAGGGC TCCTACACAT GCCAGTGCCT CACAGCCAGG 
GACGCCAACC CCTCCAGGGC TGGCAGGGTC TGCGAGGGTG ACATGGTGAC TCCCACAGGA 
GGTGGACTGT CTGTTGAAAC AACGAAGGTC AAAGCCGCAG CTGTCAGTAT GGGAATAACA 
ACCTTTGGCC CAGAGACCCT CACCTTGTCA CCAAGTTCCG AGCATCTAAG GAGCACCCCA 
GCAGAAGGCC AAGCCTCGAC CCTAGGGCCT CCATCTAGGA GAGATGGTGG TAGCACAGCC 
AGGCAAGATA GGAATAGCAC AGGACAGGAT GTGGAGGTGC CCAACGTGAC CCAGAACCCG 
CACACCACGA GAGAGTCACA GGAACACATG ACCAAAGGTC CACCCTTCCT GACCGCTAGA 
TCCACGGGCT ATGTTGTGTG GCACCCTAGT CCCACTTGGG AGACACCTCT GAAATCCACA 
AGACCGCAGA ACGAAGACCC TCCACCTTCC TCTTTCCCAG GCCCACCATC GACCCTAGTT 
GCTGTGACTC CAGAGACCCC TGCCTGTGTT CCTGGACCCA TTGGAAAGGT CACAATCTCT 
AATGTGACCA GTACCAGCTT CTCCCTCAAG TGGTCGGCAG ACCTCCACCT CTCCCCTGCC 
TTCTGCCTCA CATTGGTCTC TCCTCGGGGC CCCGCCAAGA CTATGGAGAC CCAGCACAAT 
AATGTGACAT TGTCAGGGCT GGAACTTGGA ACCTTGTACC TGGTGGAGAT TATGGCTAAG 
GTGTGTGGGA AGGAAGGTGC CAGAACACAG CTGAAAGTGC GGACAACGGC CCACAAACTC 
ACTGGTAAAG TTCGGATCCC AAGCATGCAG TATTCGGAAT CCTTCCGCAA TGCCAGCAGC 
AGGGAGCATC AAGAGTTCGT ACAAATGTTC TTCAGGACGG TGCGGGACTC TCTTCCAGCC 
ACGCTTCGTC AGCACATGGA CGAGGGCAGG ATCCAAGTGG ACATCATCAA CATCACAAAT 
GGCAGCGTCG TGGTGGAGTT TAATTTGCTA ATGACAGCAG ACCTGGATGT CAGGGAGGTG 
TCTGCTGGCT TCCTCTCTGC CTTCCAGAAC ACATCGATGC TGGAGGTAGT CAGAGGCAAA 
ACCATTATAC AAGGTATGCT GGGCTGTGCT CAATCCGAGG TCCCTTCCCG TGGCTCGCAG 
CCCAGGGTGC ACTCACGCTC TGTACGAGGG TCCGGCATTG GCCCCAGCCA GTCACCAGGA 
ACACGTGTGT GCTGTTGTTC TGCTCACTTG CAGGACCGGC TCTCCCAGAA CATGACCACC 
ACAGTGGTGA AGACCACGCT GAGGAACGAC CTGTCCCCAG AGGGCGTCAT CCACCACCTG 
CAGATCCTCA GTCCCATCCA CTGTGCCTTC CAGAATGACC TTCTGACCTC CTCGGGCTAC 
ACCCCACAGT GGGGGGTCTA CACCGTCATC GAAGACCTCC ATGGTACCGG CAATTTTGTC 
ACGGAAATGC AGCTGTTCAT TGGCGATTCT CCCATACCCC AGAACTATAG CGTGTCCGCC 
AGCGATGAGA TCAAGATCGA GGTGGAGCTT CACAGGCAGA AGAGCAATCT GAAGGTCGTG 
TTGACTGAGT GCTGGGCCAC CCCCTCCAGC AACGCCAAGG ACCCCGTCAC CTTCGGCTTC 
ATCAATAACA GCTGCCCCGT TCCCAACACC TACACCAGCG TGATCCAGAA CGGCAACTCC 
AGCAAGGCCC AGTTCAAGCT GAGAATCTTC TCCTTCATCA ACAACTCCAT CGTCTACCTG 
CACTGCAAGC TGAGAGTGTG CATGGAGAAC CCCAGGAACT CCTGCAGAAT AAACTGCAAT 
GACTTCCGGT TATTGAGAAG CAGTGAAGCC ATACACCAGA TGACCTGGGG GCCCCTCCAT 
CGGTCTGAAG GTGCACAGGC ATGTACAAAG CCAGGCCTGG GGACTGGTTA CATCATTCTC 
ATAGCAGCAG CTGTGCTTGT GGTGGTGGCA GGGGCCGCAA CCCTTCTGAT CTTGCGTTAC 
CAGAGGGTAA AGCAGAAATA CAATCTTCGA ATCCAGTCTG ACGACTTCAG CTACCAAGTG 
TTCTCTCAGT AG

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

RefSeq	XP_008771075.1
CDS	104..3775
Translation	MSRALGLALLALTCTVDLGQTSGFTENGLSLLSYQLCSYPMTRSVQKLQAVQTSYTAYVYCGGWIPWKKCPKTVYRTQYLEMNVPESRNVTDCCAGFEQLGLYCVLSRNRSREFASRPGVCPTAEPGPFTSSCSLDTDCPGLQKCCAWPGGHRCVSPTPTGTERSIVGWYNVTVLVKMGFEDLQREDPGLRNHTRLLYSLVTSALQPLNPAVHYLTSTGGKDTFTTVSWLLLGFPQRMTVANVSTMLDDMVNRVYEVISIQVQDVNECLHSELQACSEGKQCWNLEGSYQCVSPQQLTTLPSQHLNHTDKDCPPIRDFVALDVTSSSFHVSWSLNSTQNHTFHVQVYKGREILRSTWTGDRTLAVPDLEAGVLYRVRTSYQGCRANISATLVVKTDARVFQVTIRIMNRNLTEQILNCSSREFWNFSRQLFQEVENSFPQVISNMYRQGRLKMQIVSLKAGSLVVTLRLTLQDPDFLVNVGTLKPMLQPLSMSTVFQVDQQGTRVQDWDECAHSSEHDCHPAARCINLEGSYTCQCLTARDANPSRAGRVCEGDMVTPTGGGLSVETTKVKAAAVSMGITTFGPETLTLSPSSEHLRSTPAEGQASTLGPPSRRDGGSTARQDRNSTGQDVEVPNVTQNPHTTRESQEHMTKGPPFLTARSTGYVVWHPSPTWETPLKSTRPQNEDPPPSSFPGPPSTLVAVTPETPACVPGPIGKVTISNVTSTSFSLKWSADLHLSPAFCLTLVSPRGPAKTMETQHNNVTLSGLELGTLYLVEIMAKVCGKEGARTQLKVRTTAHKLTGKVRIPSMQYSESFRNASSREHQEFVQMFFRTVRDSLPATLRQHMDEGRIQVDIINITNGSVVVEFNLLMTADLDVREVSAGFLSAFQNTSMLEVVRGKTIIQGMLGCAQSEVPSRGSQPRVHSRSVRGSGIGPSQSPGTRVCCCSAHLQDRLSQNMTTTVVKTTLRNDLSPEGVIHHLQILSPIHCAFQNDLLTSSGYTPQWGVYTVIEDLHGTGNFVTEMQLFIGDSPIPQNYSVSASDEIKIEVELHRQKSNLKVVLTECWATPSSNAKDPVTFGFINNSCPVPNTYTSVIQNGNSSKAQFKLRIFSFINNSIVYLHCKLRVCMENPRNSCRINCNDFRLLRSSEAIHQMTWGPLHRSEGAQACTKPGLGTGYIILIAAAVLVVVAGAATLLILRYQRVKQKYNLRIQSDDFSYQVFSQ

Target ORF information:

RefSeq Version	XM_008772853.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus uromodulin-like 1 (Umodl1), transcript variant X1, mRNA.

Target ORF information:

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

XM_008772853.1

ORF Insert Sequence:

ATGTCCCGGG CCCTGGGGCT GGCCCTCCTG GCCTTGACAT GCACTGTGGA CCTGGGCCAG 
ACCAGTGGTT TTACAGAAAA TGGCCTCTCT CTGCTGAGTT ACCAGCTGTG CAGCTACCCC 
ATGACCCGAA GTGTCCAGAA GCTGCAGGCG GTGCAGACCT CTTACACAGC CTACGTATAT 
TGTGGAGGAT GGATCCCCTG GAAAAAGTGC CCCAAGACCG TGTACCGGAC CCAATACCTG 
GAGATGAACG TCCCTGAGTC CAGGAATGTG ACCGACTGCT GTGCAGGTTT TGAGCAGCTT 
GGCCTCTACT GTGTTCTGTC CCGGAACCGG TCCAGGGAGT TTGCATCGAG ACCCGGGGTC 
TGCCCAACAG CTGAGCCAGG GCCATTTACA TCTTCATGCA GCTTGGACAC AGACTGCCCT 
GGACTTCAGA AGTGCTGCGC CTGGCCAGGC GGGCACCGCT GTGTGTCCCC TACACCCACA 
GGTACAGAGA GGAGCATAGT GGGCTGGTAC AATGTCACTG TGCTGGTGAA GATGGGCTTC 
GAGGACCTGC AGAGAGAGGA CCCTGGGCTC CGGAACCACA CGCGCCTGCT CTACTCTTTG 
GTCACCAGTG CCTTGCAGCC TCTGAACCCA GCTGTACACT ACCTGACCTC AACTGGTGGC 
AAGGACACAT TCACCACAGT GTCATGGCTG CTGCTGGGCT TCCCACAGCG CATGACTGTA 
GCCAATGTCT CCACCATGTT GGATGACATG GTGAATAGAG TCTATGAGGT GATCAGCATC 
CAGGTGCAAG ACGTGAACGA GTGTCTTCAC AGTGAGCTCC AAGCCTGCTC TGAAGGAAAA 
CAGTGCTGGA ACCTGGAGGG CTCCTACCAA TGTGTGTCTC CCCAGCAGCT GACCACCTTG 
CCTTCCCAGC ATCTGAACCA CACAGATAAA GACTGCCCTC CAATCCGAGA CTTCGTGGCG 
CTTGACGTCA CCAGCAGCAG TTTCCATGTG TCCTGGAGTT TGAATTCCAC TCAGAACCAC 
ACTTTCCACG TACAAGTGTA CAAGGGCAGA GAAATACTCA GAAGCACTTG GACAGGGGAC 
CGGACTCTGG CTGTGCCTGA TTTGGAGGCC GGAGTACTTT ACAGAGTGAG GACTAGCTAC 
CAGGGGTGCC GGGCCAACAT CTCTGCCACA CTGGTTGTCA AGACAGATGC TCGGGTTTTC 
CAGGTCACGA TACGGATCAT GAACCGAAAC CTGACAGAAC AGATTCTCAA CTGCAGCAGC 
AGGGAATTCT GGAACTTTTC TCGACAGCTG TTTCAGGAGG TGGAAAACTC CTTCCCCCAA 
GTCATTTCTA ACATGTACAG ACAGGGGAGG CTGAAGATGC AGATCGTGTC TCTGAAGGCA 
GGGAGTCTGG TGGTGACGCT TAGACTCACC CTGCAAGATC CTGACTTTCT AGTGAATGTT 
GGCACACTGA AACCCATGTT GCAGCCTCTG TCTATGAGCA CTGTGTTCCA GGTTGACCAG 
CAGGGGACAC GAGTGCAAGA CTGGGACGAG TGTGCACACA GCTCAGAACA TGACTGCCAC 
CCAGCCGCAC GCTGCATCAA CCTGGAGGGC TCCTACACAT GCCAGTGCCT CACAGCCAGG 
GACGCCAACC CCTCCAGGGC TGGCAGGGTC TGCGAGGGTG ACATGGTGAC TCCCACAGGA 
GGTGGACTGT CTGTTGAAAC AACGAAGGTC AAAGCCGCAG CTGTCAGTAT GGGAATAACA 
ACCTTTGGCC CAGAGACCCT CACCTTGTCA CCAAGTTCCG AGCATCTAAG GAGCACCCCA 
GCAGAAGGCC AAGCCTCGAC CCTAGGGCCT CCATCTAGGA GAGATGGTGG TAGCACAGCC 
AGGCAAGATA GGAATAGCAC AGGACAGGAT GTGGAGGTGC CCAACGTGAC CCAGAACCCG 
CACACCACGA GAGAGTCACA GGAACACATG ACCAAAGGTC CACCCTTCCT GACCGCTAGA 
TCCACGGGCT ATGTTGTGTG GCACCCTAGT CCCACTTGGG AGACACCTCT GAAATCCACA 
AGACCGCAGA ACGAAGACCC TCCACCTTCC TCTTTCCCAG GCCCACCATC GACCCTAGTT 
GCTGTGACTC CAGAGACCCC TGCCTGTGTT CCTGGACCCA TTGGAAAGGT CACAATCTCT 
AATGTGACCA GTACCAGCTT CTCCCTCAAG TGGTCGGCAG ACCTCCACCT CTCCCCTGCC 
TTCTGCCTCA CATTGGTCTC TCCTCGGGGC CCCGCCAAGA CTATGGAGAC CCAGCACAAT 
AATGTGACAT TGTCAGGGCT GGAACTTGGA ACCTTGTACC TGGTGGAGAT TATGGCTAAG 
GTGTGTGGGA AGGAAGGTGC CAGAACACAG CTGAAAGTGC GGACAACGGC CCACAAACTC 
ACTGGTAAAG TTCGGATCCC AAGCATGCAG TATTCGGAAT CCTTCCGCAA TGCCAGCAGC 
AGGGAGCATC AAGAGTTCGT ACAAATGTTC TTCAGGACGG TGCGGGACTC TCTTCCAGCC 
ACGCTTCGTC AGCACATGGA CGAGGGCAGG ATCCAAGTGG ACATCATCAA CATCACAAAT 
GGCAGCGTCG TGGTGGAGTT TAATTTGCTA ATGACAGCAG ACCTGGATGT CAGGGAGGTG 
TCTGCTGGCT TCCTCTCTGC CTTCCAGAAC ACATCGATGC TGGAGGTAGT CAGAGGCAAA 
ACCATTATAC AAGGTATGCT GGGCTGTGCT CAATCCGAGG TCCCTTCCCG TGGCTCGCAG 
CCCAGGGTGC ACTCACGCTC TGTACGAGGG TCCGGCATTG GCCCCAGCCA GTCACCAGGA 
ACACGTGTGT GCTGTTGTTC TGCTCACTTG CAGGACCGGC TCTCCCAGAA CATGACCACC 
ACAGTGGTGA AGACCACGCT GAGGAACGAC CTGTCCCCAG AGGGCGTCAT CCACCACCTG 
CAGATCCTCA GTCCCATCCA CTGTGCCTTC CAGAATGACC TTCTGACCTC CTCGGGCTAC 
ACCCCACAGT GGGGGGTCTA CACCGTCATC GAAGACCTCC ATGGTACCGG CAATTTTGTC 
ACGGAAATGC AGCTGTTCAT TGGCGATTCT CCCATACCCC AGAACTATAG CGTGTCCGCC 
AGCGATGAGA TCAAGATCGA GGTGGAGCTT CACAGGCAGA AGAGCAATCT GAAGGTCGTG 
TTGACTGAGT GCTGGGCCAC CCCCTCCAGC AACGCCAAGG ACCCCGTCAC CTTCGGCTTC 
ATCAATAACA GCTGCCCCGT TCCCAACACC TACACCAGCG TGATCCAGAA CGGCAACTCC 
AGCAAGGCCC AGTTCAAGCT GAGAATCTTC TCCTTCATCA ACAACTCCAT CGTCTACCTG 
CACTGCAAGC TGAGAGTGTG CATGGAGAAC CCCAGGAACT CCTGCAGAAT AAACTGCAAT 
GACTTCCGGT TATTGAGAAG CAGTGAAGCC ATACACCAGA TGACCTGGGG GCCCCTCCAT 
CGGTCTGAAG GTGCACAGGC ATGTACAAAG CCAGGCCTGG GGACTGGTTA CATCATTCTC 
ATAGCAGCAG CTGTGCTTGT GGTGGTGGCA GGGGCCGCAA CCCTTCTGAT CTTGCGTTAC 
CAGAGGGTAA AGCAGAAATA CAATCTTCGA ATCCAGTCTG ACGACTTCAG CTACCAAGTG 
TTCTCTCAGT AG