mms22l cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	mms22l
Entrez Gene ID	100158637
Full Name	MMS22 like, DNA repair protein
Synonyms	c6orf167
General protein information	Preferred Names MMS22 like, DNA repair protein Names protein MMS22-like
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012963538.2	XP_012818992.2	protein MMS22-like
XM_012963538.3	XP_012818992.3	protein MMS22-like

Pathways from BioSystems

Homologies

Bos taurus (cattle)	MMS22L	NP_001192941.1
Mus musculus (house mouse)	Mms22l	NP_955761.2
	MMS22L	XP_001101145.2
Danio rerio (zebrafish)	mms22l	NP_001124073.1
Homo sapiens (human)	MMS22L	NP_940870.2
Canis lupus familiaris (dog)	MMS22L	XP_539051.4
Rattus norvegicus (Norway rat)	Mms22l	NP_001129252.1
Xenopus tropicalis (tropical clawed frog)	mms22l	NP_001121516.1
Xenopus tropicalis (tropical clawed frog)	LOC101733542	XP_004920323.1
Pan troglodytes (chimpanzee)	MMS22L	XP_518647.2
Gallus gallus (chicken)	MMS22L	XP_419826.4

Gene Ontology

The following mms22l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mms22l 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
OXa44712	XM_012963538.2 Latest version!	Xenopus tropicalis MMS22 like, DNA repair protein (mms22l), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OXa59278	XM_012963538.3 Latest version!	Xenopus tropicalis MMS22 like, DNA repair protein (mms22l), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

mms22l ( XM_012963538.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012818992.2 Xenopus tropicalis MMS22 like, DNA repair protein (mms22l), mRNA.

Price & Availability↑

CloneID	OXa44712
Clone ID Related Accession (Same CDS sequence)	XM_012963538.2
Accession Version	XM_012963538.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3702bp) 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	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
Product	protein MMS22-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012963538.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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##

ATGACACAGG ATTTCAGTGG CTCCCTTACT CCCCCCTTCT CCCCATATTT ACCGGATCTA 
TTAGTGGATG AAACATGCAG GGCTCCCAGC TTCTCCTGTG CCCCAACCAG CTGCTCGGGG 
AATGGCAATA CATTTTCCTC ATCGTCGTAT TTATCAAGTG GCTCATTGAA AAGGCTTCTG 
TTGAGACTTG ACCCCTCTCC GACTGATTAT GAGTCTGATA CCGTGGAGAT TTTTGACTTC 
CCGTGGGTGG CTGAAACTGC TCTGGTTGAA TCAACTGATC TTCTCTTTGG ATTGTTTAGG 
CAGAAACTTG ATATTTTGGA AAACTTGTGC CAACCTCTCT CACTGGACCC TGGACAATTA 
AGTAACATTC ACATTGAGGC TGAGGAAATA AGAAGCCAGT GTGTCCAGTT CTTGCATTAT 
GTCAAAGTGT TTATTTACAG ATTTCTTGAT CCACCCCAAA AAATGGACAC TATCCCAGTT 
CACCCTTATG AGGAACTGGA AGCCCAACTT CCCTCTAAGT TAATAGAAGA ACTTCATGGT 
TTAAGGCTGT ATCTTGGACA CCTCTGTGAA CTCCCAAACA ATATTCAGGC AGCTCTTCAG 
CTCCAGCATC ATGGAAAGGT CTTGCCAGCA TCCTGGCACT TACTCCACCT TCACTTTGAT 
GTTCATTGGT CCATCTTAGA AATTCTTCAG ATTTTGGGAG ATAAGATGCA AGGACAAATT 
GTATATGCAC ACGAGTATAT TAACTTGATT GGAGAAAACT TGACTAACGT GAGTCTGATT 
GAAGAGCTCT GCGAAGACTT GCTGTGCGAT CTGATTTATT ATGCAGCAAA TAGATATGCT 
CAGGTACGTC CATCGGAAGC TTTAAATGAT CAAATCTACC ACTGTATTTG TGTTAAAGAA 
ATGTGGATTT TACTGCTTCA GCTTCTTGAT CATAGAAGTA AAGGATCTTC TTCTGAGAGT 
TTTTGGATCC GAGTTAATAA ACTATTGAAA AGCCTTAATC AGGGTTCCAA CAGTATGGAA 
TCCCATCGCA TTTCAAAAAC AGTGCAATGT AAAGACCCTT TAGGACTAAG CTGGTGGCTT 
ATTGCACACC TCTCACCGCT GTATACATTT GATCGGAATG GGAATCGGGA AGAAGCAGTC 
CAGATATCAT CAAACTGGAA ATTTATTGAA GACCTTCTTA AGAAGTCAAG TGATGCACAG 
AATGGTGTGC GTGAGGATGA GCTTCGAATG CATCTGCAGT GCTGCTTGTC TTTATGTGAC 
ATCTGGGAGT CGAACCTTAC TGCTGGAACC ATACTGTGGG AATATTTTAG CAAAAATCTG 
AACAGTTCTT TTACCATCCG CTGGCTAGGT TTACAAACAT TGGCATGTGT CAGTAAAAGC 
CCTTGTTCTA TTCTGGAGGT GGTGAGGAGC TGCTGCACTG ATAAGCCCTC TCTTGACCTG 
TATAAGTCTG ATAACAGCTA CCTAATATTC CTGAGGATTT TGGCTCGACT GATGAAAAAA 
GACAAAGAAA GCCGTGGTGC CCATCCTTGG AAGCAGATTA AAGGAAGAAT TTATTCCAAA 
TTCCACCAGA AAAAAATGCA GGAGCTTACA GAGGTTGGAC TACAGCACTT TTTCATTCTT 
TTCCTATTAC TGGCAATTGT GGCAGACACC GAGGATGTTG CTAGTCGTGT TATAGACCTT 
TTACAGTTTT TAGTCCCCGG CCATCTCAGT ACTTCCCAGC GGGCTCTTCT GTGGAGGGGT 
AATTTTGCAT TTCTTTTGAT ATACGTGGAA AAAAACATGG ACATAAGTGC TCTTGCAGAA 
AAGCTTTCTC ACAGTTTCCG AGAAACTGCC AAGGAGTTCT TGGTGACAAA GGGCGATTTT 
GGACAAAAAC ACACACTCTG GACACTGCTT TCCACATATG TTGATGGTGT ACAAGAGGTA 
TTTGAAACCA GCCACAACCT TCAGCTTTCT GAAGAAAAAC TTTTGAATGA TGGCTTTAGC 
ATGATGTTGC CAGCTTGTAG AGAGTCAGAG TTATGTTCTG TCCTAAATTT CTTGCAAACT 
GCTGTAGCAA GACTCCGTAA CATCCATAGC CGATCTATAC AAGGACCCGG GAATAACAGC 
AGCCATGCGC AGACCTTGTT AGTGGTAAAA GAGCACCATC TAGCTGTGGC CAATGGTCTC 
TGGAGAAATT TCTTCCCCTT CTTGAAGAAC TTGAGGCTTT CACAGACACC CCCATCCCAG 
CTCGCAGACA CCGCTGCAGG CTACACTTTG TTGGCTTTGG CCATGCCTAA CAGCGCCCCT 
CCGGAGCTCC AGCCCCAGCC TTTTGTGTCG ATGTTTCAGC TGTTTGGATG GGATGACATG 
ATTACACCTC AACTGGTGTC CCGATATCTG AACCACGTGC TGCCAAACGG TGAATTTATG 
GATGCTTTCA GTGGCATTGG ATACTCCTCT TTCCAAGCAC TGTCTGTTCG TACCTGGATT 
CGATGTGTGC TGCAAATCTA TATTGACCAG CCTGGGGGAA CAGACTCTGA ACAGAAGAGC 
TCAATCATGG AGCAGCTTGG AGAATTAACT CGACTTGTGT TCAGACTCCC AGAAGTTGAA 
AACCTCTTAT CCAAAGGGCA GGTGTTACCT CTGTCTTACA AACAAGATCC CAGGAGCGCG 
CTGCTACAGT TCATCAAAGC AGCCGGGGTA ATGTATGGCA GGCTGCAGAC TCTGGCAGAA 
AAGTCGGCCA TGGTTTCAAA ATGTCAGGAG TACCTGGGAG ATGTTCTAAA GTATATTAAG 
CCATATCTTA CCAAGAAAGG CCCCCCTGAA GGTTTGCAAA TCACTTACAG GACTATAGGA 
TGCCTGGTGA GGTATTGGGC ATTGATGCTC GCTACTTCCA AAGCACAGCA GCTACTGTTC 
CGTATCATTG ATTTCCTGCT TTTGCCACAT GCTTTGTTTC ATCAAGATAA GAATTTGCCG 
CCAGCCATGC TCTCCAATAT CCGCGAAAGT CTGCCCCAAT TTCTACAGGG TTTGTCCATA 
ATATCCCGTC AGTCTCAAGC ACAAGGTGCC TATGTAAAGC AGCAGCTGAG AACGATTGTT 
CAGCAATATT TTGGGCGATT TCTCCCTAGT GTTCCCTCTG CTGGAGCAGG TGGGAATCAT 
CCTATGCTGT TAGCATTGAG TGATACTCTG GAGAGCCAGC ACTCTGTACA TCTCAGAAGG 
ATAATAATGC AAGTCTTAAG TGAAAACTAC CTCCAGTTCA GAGGTAACGC TCCCCCACCT 
CGCCTGGCCT CTGTCTTGTC TTTCATCTTT GATGCTTTAA ACAAAAGCAA AAATATTGAT 
ACATTTGATG CAGAGGCTCT TCTTCCGTCT GTGCTTAAAT GCTTGATACT GGTCAATGAG 
CCACAGGTGA GAAAACTTTC TGCAGAGGTT CTACAGTGTA TAATAGAAAA CTGCCAATCT 
GACCAGACAG GGGAAACTGC AACTACGCTT GCTTCTGTTT TAAGGAAGTT TATCCAAGAG 
AACAGTTTGT TGTATGACCA GCATATTTTT GGCATTCTGG AAACCATATC TGTGCTAGAT 
CAGCCTCTTG TTATCAGCTT GATTCCCACA ATCACTCAAA GTCTAATGGA CTCAGAACAT 
AAGCGTGGGC TGGGCAGAAA TGCTTCTTCA AGGGCGGCTT ACAGAAGATT GCTGTCACTT 
TTAGGAGAAC AGGGGCAAGC AGCATTGCAG ACGTTGGATT GA

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

RefSeq	XP_012818992.2
CDS	180..3881
Translation	MTQDFSGSLTPPFSPYLPDLLVDETCRAPSFSCAPTSCSGNGNTFSSSSYLSSGSLKRLLLRLDPSPTDYESDTVEIFDFPWVAETALVESTDLLFGLFRQKLDILENLCQPLSLDPGQLSNIHIEAEEIRSQCVQFLHYVKVFIYRFLDPPQKMDTIPVHPYEELEAQLPSKLIEELHGLRLYLGHLCELPNNIQAALQLQHHGKVLPASWHLLHLHFDVHWSILEILQILGDKMQGQIVYAHEYINLIGENLTNVSLIEELCEDLLCDLIYYAANRYAQVRPSEALNDQIYHCICVKEMWILLLQLLDHRSKGSSSESFWIRVNKLLKSLNQGSNSMESHRISKTVQCKDPLGLSWWLIAHLSPLYTFDRNGNREEAVQISSNWKFIEDLLKKSSDAQNGVREDELRMHLQCCLSLCDIWESNLTAGTILWEYFSKNLNSSFTIRWLGLQTLACVSKSPCSILEVVRSCCTDKPSLDLYKSDNSYLIFLRILARLMKKDKESRGAHPWKQIKGRIYSKFHQKKMQELTEVGLQHFFILFLLLAIVADTEDVASRVIDLLQFLVPGHLSTSQRALLWRGNFAFLLIYVEKNMDISALAEKLSHSFRETAKEFLVTKGDFGQKHTLWTLLSTYVDGVQEVFETSHNLQLSEEKLLNDGFSMMLPACRESELCSVLNFLQTAVARLRNIHSRSIQGPGNNSSHAQTLLVVKEHHLAVANGLWRNFFPFLKNLRLSQTPPSQLADTAAGYTLLALAMPNSAPPELQPQPFVSMFQLFGWDDMITPQLVSRYLNHVLPNGEFMDAFSGIGYSSFQALSVRTWIRCVLQIYIDQPGGTDSEQKSSIMEQLGELTRLVFRLPEVENLLSKGQVLPLSYKQDPRSALLQFIKAAGVMYGRLQTLAEKSAMVSKCQEYLGDVLKYIKPYLTKKGPPEGLQITYRTIGCLVRYWALMLATSKAQQLLFRIIDFLLLPHALFHQDKNLPPAMLSNIRESLPQFLQGLSIISRQSQAQGAYVKQQLRTIVQQYFGRFLPSVPSAGAGGNHPMLLALSDTLESQHSVHLRRIIMQVLSENYLQFRGNAPPPRLASVLSFIFDALNKSKNIDTFDAEALLPSVLKCLILVNEPQVRKLSAEVLQCIIENCQSDQTGETATTLASVLRKFIQENSLLYDQHIFGILETISVLDQPLVISLIPTITQSLMDSEHKRGLGRNASSRAAYRRLLSLLGEQGQAALQTLD

Target ORF information:

RefSeq Version	XM_012963538.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis MMS22 like, DNA repair protein (mms22l), mRNA.

Target ORF information:

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

XM_012963538.2

ORF Insert Sequence:

ATGACACAGG ATTTCAGTGG CTCCCTTACT CCCCCCTTCT CCCCATATTT ACCGGATCTA 
TTAGTGGATG AAACATGCAG GGCTCCCAGC TTCTCCTGTG CCCCAACCAG CTGCTCGGGG 
AATGGCAATA CATTTTCCTC ATCGTCGTAT TTATCAAGTG GCTCATTGAA AAGGCTTCTG 
TTGAGACTTG ACCCCTCTCC GACTGATTAT GAGTCTGATA CCGTGGAGAT TTTTGACTTC 
CCGTGGGTGG CTGAAACTGC TCTGGTTGAA TCAACTGATC TTCTCTTTGG ATTGTTTAGG 
CAGAAACTTG ATATTTTGGA AAACTTGTGC CAACCTCTCT CACTGGACCC TGGACAATTA 
AGTAACATTC ACATTGAGGC TGAGGAAATA AGAAGCCAGT GTGTCCAGTT CTTGCATTAT 
GTCAAAGTGT TTATTTACAG ATTTCTTGAT CCACCCCAAA AAATGGACAC TATCCCAGTT 
CACCCTTATG AGGAACTGGA AGCCCAACTT CCCTCTAAGT TAATAGAAGA ACTTCATGGT 
TTAAGGCTGT ATCTTGGACA CCTCTGTGAA CTCCCAAACA ATATTCAGGC AGCTCTTCAG 
CTCCAGCATC ATGGAAAGGT CTTGCCAGCA TCCTGGCACT TACTCCACCT TCACTTTGAT 
GTTCATTGGT CCATCTTAGA AATTCTTCAG ATTTTGGGAG ATAAGATGCA AGGACAAATT 
GTATATGCAC ACGAGTATAT TAACTTGATT GGAGAAAACT TGACTAACGT GAGTCTGATT 
GAAGAGCTCT GCGAAGACTT GCTGTGCGAT CTGATTTATT ATGCAGCAAA TAGATATGCT 
CAGGTACGTC CATCGGAAGC TTTAAATGAT CAAATCTACC ACTGTATTTG TGTTAAAGAA 
ATGTGGATTT TACTGCTTCA GCTTCTTGAT CATAGAAGTA AAGGATCTTC TTCTGAGAGT 
TTTTGGATCC GAGTTAATAA ACTATTGAAA AGCCTTAATC AGGGTTCCAA CAGTATGGAA 
TCCCATCGCA TTTCAAAAAC AGTGCAATGT AAAGACCCTT TAGGACTAAG CTGGTGGCTT 
ATTGCACACC TCTCACCGCT GTATACATTT GATCGGAATG GGAATCGGGA AGAAGCAGTC 
CAGATATCAT CAAACTGGAA ATTTATTGAA GACCTTCTTA AGAAGTCAAG TGATGCACAG 
AATGGTGTGC GTGAGGATGA GCTTCGAATG CATCTGCAGT GCTGCTTGTC TTTATGTGAC 
ATCTGGGAGT CGAACCTTAC TGCTGGAACC ATACTGTGGG AATATTTTAG CAAAAATCTG 
AACAGTTCTT TTACCATCCG CTGGCTAGGT TTACAAACAT TGGCATGTGT CAGTAAAAGC 
CCTTGTTCTA TTCTGGAGGT GGTGAGGAGC TGCTGCACTG ATAAGCCCTC TCTTGACCTG 
TATAAGTCTG ATAACAGCTA CCTAATATTC CTGAGGATTT TGGCTCGACT GATGAAAAAA 
GACAAAGAAA GCCGTGGTGC CCATCCTTGG AAGCAGATTA AAGGAAGAAT TTATTCCAAA 
TTCCACCAGA AAAAAATGCA GGAGCTTACA GAGGTTGGAC TACAGCACTT TTTCATTCTT 
TTCCTATTAC TGGCAATTGT GGCAGACACC GAGGATGTTG CTAGTCGTGT TATAGACCTT 
TTACAGTTTT TAGTCCCCGG CCATCTCAGT ACTTCCCAGC GGGCTCTTCT GTGGAGGGGT 
AATTTTGCAT TTCTTTTGAT ATACGTGGAA AAAAACATGG ACATAAGTGC TCTTGCAGAA 
AAGCTTTCTC ACAGTTTCCG AGAAACTGCC AAGGAGTTCT TGGTGACAAA GGGCGATTTT 
GGACAAAAAC ACACACTCTG GACACTGCTT TCCACATATG TTGATGGTGT ACAAGAGGTA 
TTTGAAACCA GCCACAACCT TCAGCTTTCT GAAGAAAAAC TTTTGAATGA TGGCTTTAGC 
ATGATGTTGC CAGCTTGTAG AGAGTCAGAG TTATGTTCTG TCCTAAATTT CTTGCAAACT 
GCTGTAGCAA GACTCCGTAA CATCCATAGC CGATCTATAC AAGGACCCGG GAATAACAGC 
AGCCATGCGC AGACCTTGTT AGTGGTAAAA GAGCACCATC TAGCTGTGGC CAATGGTCTC 
TGGAGAAATT TCTTCCCCTT CTTGAAGAAC TTGAGGCTTT CACAGACACC CCCATCCCAG 
CTCGCAGACA CCGCTGCAGG CTACACTTTG TTGGCTTTGG CCATGCCTAA CAGCGCCCCT 
CCGGAGCTCC AGCCCCAGCC TTTTGTGTCG ATGTTTCAGC TGTTTGGATG GGATGACATG 
ATTACACCTC AACTGGTGTC CCGATATCTG AACCACGTGC TGCCAAACGG TGAATTTATG 
GATGCTTTCA GTGGCATTGG ATACTCCTCT TTCCAAGCAC TGTCTGTTCG TACCTGGATT 
CGATGTGTGC TGCAAATCTA TATTGACCAG CCTGGGGGAA CAGACTCTGA ACAGAAGAGC 
TCAATCATGG AGCAGCTTGG AGAATTAACT CGACTTGTGT TCAGACTCCC AGAAGTTGAA 
AACCTCTTAT CCAAAGGGCA GGTGTTACCT CTGTCTTACA AACAAGATCC CAGGAGCGCG 
CTGCTACAGT TCATCAAAGC AGCCGGGGTA ATGTATGGCA GGCTGCAGAC TCTGGCAGAA 
AAGTCGGCCA TGGTTTCAAA ATGTCAGGAG TACCTGGGAG ATGTTCTAAA GTATATTAAG 
CCATATCTTA CCAAGAAAGG CCCCCCTGAA GGTTTGCAAA TCACTTACAG GACTATAGGA 
TGCCTGGTGA GGTATTGGGC ATTGATGCTC GCTACTTCCA AAGCACAGCA GCTACTGTTC 
CGTATCATTG ATTTCCTGCT TTTGCCACAT GCTTTGTTTC ATCAAGATAA GAATTTGCCG 
CCAGCCATGC TCTCCAATAT CCGCGAAAGT CTGCCCCAAT TTCTACAGGG TTTGTCCATA 
ATATCCCGTC AGTCTCAAGC ACAAGGTGCC TATGTAAAGC AGCAGCTGAG AACGATTGTT 
CAGCAATATT TTGGGCGATT TCTCCCTAGT GTTCCCTCTG CTGGAGCAGG TGGGAATCAT 
CCTATGCTGT TAGCATTGAG TGATACTCTG GAGAGCCAGC ACTCTGTACA TCTCAGAAGG 
ATAATAATGC AAGTCTTAAG TGAAAACTAC CTCCAGTTCA GAGGTAACGC TCCCCCACCT 
CGCCTGGCCT CTGTCTTGTC TTTCATCTTT GATGCTTTAA ACAAAAGCAA AAATATTGAT 
ACATTTGATG CAGAGGCTCT TCTTCCGTCT GTGCTTAAAT GCTTGATACT GGTCAATGAG 
CCACAGGTGA GAAAACTTTC TGCAGAGGTT CTACAGTGTA TAATAGAAAA CTGCCAATCT 
GACCAGACAG GGGAAACTGC AACTACGCTT GCTTCTGTTT TAAGGAAGTT TATCCAAGAG 
AACAGTTTGT TGTATGACCA GCATATTTTT GGCATTCTGG AAACCATATC TGTGCTAGAT 
CAGCCTCTTG TTATCAGCTT GATTCCCACA ATCACTCAAA GTCTAATGGA CTCAGAACAT 
AAGCGTGGGC TGGGCAGAAA TGCTTCTTCA AGGGCGGCTT ACAGAAGATT GCTGTCACTT 
TTAGGAGAAC AGGGGCAAGC AGCATTGCAG ACGTTGGATT GA

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

mms22l ( XM_012963538.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012818992.3 Xenopus tropicalis MMS22 like, DNA repair protein (mms22l), mRNA.

Price & Availability↑

CloneID	OXa59278
Clone ID Related Accession (Same CDS sequence)	XM_012963538.3
Accession Version	XM_012963538.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3702bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
Product	protein MMS22-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012963538.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACACAGG ATTTCAGTGG CTCCCTTACT CCCCCCTTCT CCCCATATTT ACCGGATCTA 
TTAGTGGATG AAACATGCAG GGCTCCCCGC TTCTCCTGTG CCCCAACCAG CTGCTCGGGG 
AATGGCAATA CATTTTCCTC ATCGTCGTAT TTATCAAGTG GCTCATTGAA AAGGCTTCTG 
TTGAGACTTG ACCCCTCTCC GACTGATTAT GAGTCTGATA CCGTGGAGAT TTTTGACTTC 
CCGTGGGTGG CTGAAACTGC TCTGGTTGAA TCAACTGATC TTCTCTTTGG ATTGTTTAGG 
CAGAAACTTG ATATTTTGGA AAACTTGTGC CAACCTCTCT CACTGGACCC TGGACAATTA 
AGTAACATTC ACATTGAGGC TGAGGAAATA AGAAGCCAGT GTGTCCAGTT CTTGCATTAT 
GTCAAAGTGT TTATTTACAG ATTTCTTGAT CCACCCCAAA AAATGGACAC TATCCCAGTT 
CACCCTTATG AGGAACTGGA AGCCCAACTT CCCTCTAAGT TAATAGAAGA ACTTCATGGT 
TTAAGGCTGT ATCTTGGACA CCTCTGTGAA CTCCCAAACA ATATTCAGGC AGCTCTTCAG 
CTCCAGCATC ATGGAAAGGT CTTGCCAGCA TCCTGGCACT TACTCCACCT TCACTTTGAT 
GTTCATTGGT CCATCTTAGA AATTCTTCAG ATTTTGGGAG ATAAGATGCA AGGACAAATT 
GTATATGCAC ACGAGTATAT TAACTTGATT GGAGAAAACT TGACTAACGT GAGTCTGATT 
GAAGAGCTCT GCGAAGACTT GCTGTGCGAT CTGATTTATT ATGCAGCAAA TAGATATGCT 
CAGGTACGTC CATCGGAAGC TTTAAATGAT CAAATCTACC ACTGTATTTG TGTTAAAGAA 
ATGTGGATTT TACTGCTTCA GCTTCTTGAT CATAGAAGTA AAGGATCTTC TTCTGAGAGT 
TTTTGGATCC GAGTTAATAA ACTATTGAAA AGCCTTAATC AGGGTTCCAA CAGTATGGAA 
TCCCATCGCA TTTCAAAAAC AGTGCAATGT AAAGACCCTT TAGGACTAAG CTGGTGGCTT 
ATTGCACACC TCTCACCGCT GTATACATTT GATCGGAATG GGAATCGGGA AGAAGCAGTC 
CAGATATCAT CAAACTGGAA ATTTATTGAA GACCTTCTTA AGAAGTCAAG TGATGCACAG 
AATGGTGTGC GTGAGGATGA GCTTCGAATG CATCTGCAGT GCTGCTTGTC TTTATGTGAC 
ATCTGGGAGT CGAACCTTAC TGCTGGAACC ATACTGTGGG AATATTTTAG CAAAAATCTG 
AACAGTTCTT TTACCATCCG CTGGCTAGGT TTACAAACAT TGGCATGTGT CAGTAAAAGC 
CCTTGTTCTA TGCTGGAGGT GGTGAGGAGC TGCTGCACTG ATAAGCCCTC TCTTGACCTG 
TATAAGTCTG ATAACAGCTA CCTAATTTTC CTGAGGATTT TGGCTCGACT GATGAAAAAA 
GACAAAGAAA GCCGTGGTGC CCATCCTTGG AAGCAGATTA AAGGAAGAAT TTATTCCAAA 
TTCCACCAGA AAAAAATGCA GGAGCTTACA GAGGTTGGAC TACAGCACTT TTTCATTCTT 
TTCCTATTAC TGGCAATTGT GGCAGACACC GAGGATGTTG CTAGTCGTGT TATAGACCTT 
TTACAGTTTT TAGTCCCCGG CCATCTCAGT ACTTCCCAGC GGGCTCTTCT GTGGAGGGGT 
AATTTTGCAT TTCTTTTGAT ATACGTGGAA AAAAACATGG ACATAAGTGC TCTTGCAGAA 
AAGCTTTCTC ACAGTTTCCG AGAAACTGCC AAGGAGTTCT TGGTGACAAA GGGCGATTTT 
GGACAAAAAC ACACACTCTG GACACTGCTT TCCACATATG TTGATGGTGT ACAAGAGGTA 
TTTGAAACCA GCCACAACCT TCAGCTTTCT GAAGAAAAAC TTTTGAATGA TGGCTTTAGC 
ATGATGTTGC CAGCTTGTAG AGAGTCAGAG TTATGTTCTG TCCTAAATTT CTTGCAAACT 
GCTGTAGCAA GACTCCGTAA CATCCATAGC CGATCTATAC AAGGACCCGG GAATAACAGC 
AGCCATGCGC AGACCTTGTT AGTGGTAAAA GAGCACCATC TAGCTGTGGC CAATGGTCTC 
TGGAGAAATT TCTTCCCCTT CTTGAAGAAC TTGAGGCTTT CACAGACACC CCCATCCCAG 
CTCGCAGACA CCGCTGCAGG CTACACTTTG TTGGCTTTGG CCATGCCTAA CAGCGCCCCT 
CCGGAGCTCC AGCCCCAGCC TTTTGTGTCG ATGTTTCAGC TGTTTGGATG GGATGACATG 
ATTACACCTC AACTGGTGTC CCGATATCTG AACCACGTGC TGCCAAACGG TGAATTTATG 
GATGCTTTCA GTGGCATTGG ATACTCCTCT TTCCAAGCAC TGTCTGTTCG TACCTGGATT 
CGATGTGTCC TGCAAATCTA TATTGACCAG CCTGGGGGAA CAGACTCTGA ACAGAAGAGC 
TCAATCATGG AGCAGCTTGG AGAATTAACT CGACTTGTGT TCAGACTCCC AGAAGTTGAA 
AACCTCTTAT CCAAAGGGCA GGTGTTACCT CTGTCTTACA AACAAGATCC CAGGAGCGCG 
CTGCTACAGT TCATCAAAGC AGCCGGGGTA ATGTATGGCA GGCTGCAGAC TCTGGCAGAA 
AAGTCGGCCA TGGTTTCAAA ATGTCAGGAG TACCTGGGAG ATGTTCTAAA GTATATTAAG 
CCATATCTTA CCAAGAAAGG CCCCCCTGAA GGTTTGCAAA TCACTTACAG GACTATAGGA 
TGCCTGGTGA GGTATTGGGC ATTGATGCTC GCTACTTCCA AAGCACAGCA GCTACTGTTC 
CGTATCATTG ATTTCCTGCT TTTGCCACAT GCTTTGTTTC ATCAAGATAA GAATTTGCCG 
CCAGCCATGC TCTCCAATAT CCGCGAAAGT CTGCCCCAAT TTCTACAGGG TTTGTCCATA 
ATATCCCGTC AGTCTCAAGC ACAAGGTGCC TATGTAAAGC AGCAGCTGAG AACGATTGTT 
CAGCAATATT TTGGGCGATT TCTCCCTAGT GTTCCCTCTG CTGGAGCAGG TGGGAATCAT 
CCTATGCTGT TAGCATTGAG TGATACTCTG GAGAGCCAGC ACTCTGTACA TCTCAGAAGG 
ATAATAATGC AAGTCTTAAG TGAAAACTAC CTCCAGTTCA GAGGTAACGC TCCCCCACCT 
CGCCTGGCCT CTGTCTTGTC TTTCATCTTT GATGCTTTAA ACAAAAGCAA AAATATTGAT 
ACATTTGATG CAGAGGCTCT TCTTCCGTCT GTGCTTAAAT GCTTGATACT GGTCAATGAG 
CCACAGGTGA GAAAACTTTC TGCAGAGGTT CTACAGTGTA TAATAGAAAA CTGCCAATCT 
GACCAGACAG GGGAAACTGC AACTACGCTT GCTTCTGTTT TAAGGAAGTT TATCCAAGAG 
AACAGTTTGT TGTATGACCA GCATATTTTT GGCATTCTGG AAACCATATC TGTGCTAGAT 
CAGCCTCTTG TTATCAGCTT GATTCCCACA ATCACTCAAA GTCTAATGGA CTCAGAACAT 
AAGCGTGGGC TGGGCAGAAA TGCTTCTTCA AGGGCGGCTT ACAGAAGATT GCTGTCACTT 
TTAGGAGAAC AGGGGCAAGC AGCATTGCAG ACGTTGGATT GA

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

RefSeq	XP_012818992.3
CDS	157..3858
Translation	MTQDFSGSLTPPFSPYLPDLLVDETCRAPRFSCAPTSCSGNGNTFSSSSYLSSGSLKRLLLRLDPSPTDYESDTVEIFDFPWVAETALVESTDLLFGLFRQKLDILENLCQPLSLDPGQLSNIHIEAEEIRSQCVQFLHYVKVFIYRFLDPPQKMDTIPVHPYEELEAQLPSKLIEELHGLRLYLGHLCELPNNIQAALQLQHHGKVLPASWHLLHLHFDVHWSILEILQILGDKMQGQIVYAHEYINLIGENLTNVSLIEELCEDLLCDLIYYAANRYAQVRPSEALNDQIYHCICVKEMWILLLQLLDHRSKGSSSESFWIRVNKLLKSLNQGSNSMESHRISKTVQCKDPLGLSWWLIAHLSPLYTFDRNGNREEAVQISSNWKFIEDLLKKSSDAQNGVREDELRMHLQCCLSLCDIWESNLTAGTILWEYFSKNLNSSFTIRWLGLQTLACVSKSPCSMLEVVRSCCTDKPSLDLYKSDNSYLIFLRILARLMKKDKESRGAHPWKQIKGRIYSKFHQKKMQELTEVGLQHFFILFLLLAIVADTEDVASRVIDLLQFLVPGHLSTSQRALLWRGNFAFLLIYVEKNMDISALAEKLSHSFRETAKEFLVTKGDFGQKHTLWTLLSTYVDGVQEVFETSHNLQLSEEKLLNDGFSMMLPACRESELCSVLNFLQTAVARLRNIHSRSIQGPGNNSSHAQTLLVVKEHHLAVANGLWRNFFPFLKNLRLSQTPPSQLADTAAGYTLLALAMPNSAPPELQPQPFVSMFQLFGWDDMITPQLVSRYLNHVLPNGEFMDAFSGIGYSSFQALSVRTWIRCVLQIYIDQPGGTDSEQKSSIMEQLGELTRLVFRLPEVENLLSKGQVLPLSYKQDPRSALLQFIKAAGVMYGRLQTLAEKSAMVSKCQEYLGDVLKYIKPYLTKKGPPEGLQITYRTIGCLVRYWALMLATSKAQQLLFRIIDFLLLPHALFHQDKNLPPAMLSNIRESLPQFLQGLSIISRQSQAQGAYVKQQLRTIVQQYFGRFLPSVPSAGAGGNHPMLLALSDTLESQHSVHLRRIIMQVLSENYLQFRGNAPPPRLASVLSFIFDALNKSKNIDTFDAEALLPSVLKCLILVNEPQVRKLSAEVLQCIIENCQSDQTGETATTLASVLRKFIQENSLLYDQHIFGILETISVLDQPLVISLIPTITQSLMDSEHKRGLGRNASSRAAYRRLLSLLGEQGQAALQTLD

Target ORF information:

RefSeq Version	XM_012963538.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis MMS22 like, DNA repair protein (mms22l), mRNA.

Target ORF information:

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

XM_012963538.3

ORF Insert Sequence:

ATGACACAGG ATTTCAGTGG CTCCCTTACT CCCCCCTTCT CCCCATATTT ACCGGATCTA 
TTAGTGGATG AAACATGCAG GGCTCCCCGC TTCTCCTGTG CCCCAACCAG CTGCTCGGGG 
AATGGCAATA CATTTTCCTC ATCGTCGTAT TTATCAAGTG GCTCATTGAA AAGGCTTCTG 
TTGAGACTTG ACCCCTCTCC GACTGATTAT GAGTCTGATA CCGTGGAGAT TTTTGACTTC 
CCGTGGGTGG CTGAAACTGC TCTGGTTGAA TCAACTGATC TTCTCTTTGG ATTGTTTAGG 
CAGAAACTTG ATATTTTGGA AAACTTGTGC CAACCTCTCT CACTGGACCC TGGACAATTA 
AGTAACATTC ACATTGAGGC TGAGGAAATA AGAAGCCAGT GTGTCCAGTT CTTGCATTAT 
GTCAAAGTGT TTATTTACAG ATTTCTTGAT CCACCCCAAA AAATGGACAC TATCCCAGTT 
CACCCTTATG AGGAACTGGA AGCCCAACTT CCCTCTAAGT TAATAGAAGA ACTTCATGGT 
TTAAGGCTGT ATCTTGGACA CCTCTGTGAA CTCCCAAACA ATATTCAGGC AGCTCTTCAG 
CTCCAGCATC ATGGAAAGGT CTTGCCAGCA TCCTGGCACT TACTCCACCT TCACTTTGAT 
GTTCATTGGT CCATCTTAGA AATTCTTCAG ATTTTGGGAG ATAAGATGCA AGGACAAATT 
GTATATGCAC ACGAGTATAT TAACTTGATT GGAGAAAACT TGACTAACGT GAGTCTGATT 
GAAGAGCTCT GCGAAGACTT GCTGTGCGAT CTGATTTATT ATGCAGCAAA TAGATATGCT 
CAGGTACGTC CATCGGAAGC TTTAAATGAT CAAATCTACC ACTGTATTTG TGTTAAAGAA 
ATGTGGATTT TACTGCTTCA GCTTCTTGAT CATAGAAGTA AAGGATCTTC TTCTGAGAGT 
TTTTGGATCC GAGTTAATAA ACTATTGAAA AGCCTTAATC AGGGTTCCAA CAGTATGGAA 
TCCCATCGCA TTTCAAAAAC AGTGCAATGT AAAGACCCTT TAGGACTAAG CTGGTGGCTT 
ATTGCACACC TCTCACCGCT GTATACATTT GATCGGAATG GGAATCGGGA AGAAGCAGTC 
CAGATATCAT CAAACTGGAA ATTTATTGAA GACCTTCTTA AGAAGTCAAG TGATGCACAG 
AATGGTGTGC GTGAGGATGA GCTTCGAATG CATCTGCAGT GCTGCTTGTC TTTATGTGAC 
ATCTGGGAGT CGAACCTTAC TGCTGGAACC ATACTGTGGG AATATTTTAG CAAAAATCTG 
AACAGTTCTT TTACCATCCG CTGGCTAGGT TTACAAACAT TGGCATGTGT CAGTAAAAGC 
CCTTGTTCTA TGCTGGAGGT GGTGAGGAGC TGCTGCACTG ATAAGCCCTC TCTTGACCTG 
TATAAGTCTG ATAACAGCTA CCTAATTTTC CTGAGGATTT TGGCTCGACT GATGAAAAAA 
GACAAAGAAA GCCGTGGTGC CCATCCTTGG AAGCAGATTA AAGGAAGAAT TTATTCCAAA 
TTCCACCAGA AAAAAATGCA GGAGCTTACA GAGGTTGGAC TACAGCACTT TTTCATTCTT 
TTCCTATTAC TGGCAATTGT GGCAGACACC GAGGATGTTG CTAGTCGTGT TATAGACCTT 
TTACAGTTTT TAGTCCCCGG CCATCTCAGT ACTTCCCAGC GGGCTCTTCT GTGGAGGGGT 
AATTTTGCAT TTCTTTTGAT ATACGTGGAA AAAAACATGG ACATAAGTGC TCTTGCAGAA 
AAGCTTTCTC ACAGTTTCCG AGAAACTGCC AAGGAGTTCT TGGTGACAAA GGGCGATTTT 
GGACAAAAAC ACACACTCTG GACACTGCTT TCCACATATG TTGATGGTGT ACAAGAGGTA 
TTTGAAACCA GCCACAACCT TCAGCTTTCT GAAGAAAAAC TTTTGAATGA TGGCTTTAGC 
ATGATGTTGC CAGCTTGTAG AGAGTCAGAG TTATGTTCTG TCCTAAATTT CTTGCAAACT 
GCTGTAGCAA GACTCCGTAA CATCCATAGC CGATCTATAC AAGGACCCGG GAATAACAGC 
AGCCATGCGC AGACCTTGTT AGTGGTAAAA GAGCACCATC TAGCTGTGGC CAATGGTCTC 
TGGAGAAATT TCTTCCCCTT CTTGAAGAAC TTGAGGCTTT CACAGACACC CCCATCCCAG 
CTCGCAGACA CCGCTGCAGG CTACACTTTG TTGGCTTTGG CCATGCCTAA CAGCGCCCCT 
CCGGAGCTCC AGCCCCAGCC TTTTGTGTCG ATGTTTCAGC TGTTTGGATG GGATGACATG 
ATTACACCTC AACTGGTGTC CCGATATCTG AACCACGTGC TGCCAAACGG TGAATTTATG 
GATGCTTTCA GTGGCATTGG ATACTCCTCT TTCCAAGCAC TGTCTGTTCG TACCTGGATT 
CGATGTGTCC TGCAAATCTA TATTGACCAG CCTGGGGGAA CAGACTCTGA ACAGAAGAGC 
TCAATCATGG AGCAGCTTGG AGAATTAACT CGACTTGTGT TCAGACTCCC AGAAGTTGAA 
AACCTCTTAT CCAAAGGGCA GGTGTTACCT CTGTCTTACA AACAAGATCC CAGGAGCGCG 
CTGCTACAGT TCATCAAAGC AGCCGGGGTA ATGTATGGCA GGCTGCAGAC TCTGGCAGAA 
AAGTCGGCCA TGGTTTCAAA ATGTCAGGAG TACCTGGGAG ATGTTCTAAA GTATATTAAG 
CCATATCTTA CCAAGAAAGG CCCCCCTGAA GGTTTGCAAA TCACTTACAG GACTATAGGA 
TGCCTGGTGA GGTATTGGGC ATTGATGCTC GCTACTTCCA AAGCACAGCA GCTACTGTTC 
CGTATCATTG ATTTCCTGCT TTTGCCACAT GCTTTGTTTC ATCAAGATAA GAATTTGCCG 
CCAGCCATGC TCTCCAATAT CCGCGAAAGT CTGCCCCAAT TTCTACAGGG TTTGTCCATA 
ATATCCCGTC AGTCTCAAGC ACAAGGTGCC TATGTAAAGC AGCAGCTGAG AACGATTGTT 
CAGCAATATT TTGGGCGATT TCTCCCTAGT GTTCCCTCTG CTGGAGCAGG TGGGAATCAT 
CCTATGCTGT TAGCATTGAG TGATACTCTG GAGAGCCAGC ACTCTGTACA TCTCAGAAGG 
ATAATAATGC AAGTCTTAAG TGAAAACTAC CTCCAGTTCA GAGGTAACGC TCCCCCACCT 
CGCCTGGCCT CTGTCTTGTC TTTCATCTTT GATGCTTTAA ACAAAAGCAA AAATATTGAT 
ACATTTGATG CAGAGGCTCT TCTTCCGTCT GTGCTTAAAT GCTTGATACT GGTCAATGAG 
CCACAGGTGA GAAAACTTTC TGCAGAGGTT CTACAGTGTA TAATAGAAAA CTGCCAATCT 
GACCAGACAG GGGAAACTGC AACTACGCTT GCTTCTGTTT TAAGGAAGTT TATCCAAGAG 
AACAGTTTGT TGTATGACCA GCATATTTTT GGCATTCTGG AAACCATATC TGTGCTAGAT 
CAGCCTCTTG TTATCAGCTT GATTCCCACA ATCACTCAAA GTCTAATGGA CTCAGAACAT 
AAGCGTGGGC TGGGCAGAAA TGCTTCTTCA AGGGCGGCTT ACAGAAGATT GCTGTCACTT 
TTAGGAGAAC AGGGGCAAGC AGCATTGCAG ACGTTGGATT GA