MMS22L cDNA ORF clone, Numida meleagris(helmeted guineafowl)

Gene
Clones
gRNAs

Summary

Gene Symbol	MMS22L
Entrez Gene ID	110396424
Full Name	MMS22 like, DNA repair protein
Gene Type	protein-coding
Organism	Numida meleagris(helmeted guineafowl)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021392043.1	XP_021247718.1	protein MMS22-like

Pathways from BioSystems
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
ONu20068	XM_021392043.1 Latest version!	Numida meleagris MMS22 like, DNA repair protein (MMS22L), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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_021392043.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021247718.1 Numida meleagris MMS22 like, DNA repair protein (MMS22L), mRNA.

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CloneID	ONu20068
Clone ID Related Accession (Same CDS sequence)	XM_021392043.1
Accession Version	XM_021392043.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3756bp) 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	2017-06-06
Organism	Numida meleagris(helmeted guineafowl)
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_034411.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAACAA TGGACGATGA CTTTATGGAT TCCTTCACGC CCCCACTTCT CAGTGACAGC 
CTGCAGATGG CAATGGAGGT GGAGTATGAG AAGTCAAAGC CTTGTTGTTT TTCCTGTATT 
TTTGACAACC AAAATGGAGG GAGAAACTTC TCTGCAGAGT CTTACTTAGC AAGTGGGTCT 
CTTAAGAGGG TTTTGCTGAG ACTGGATCCT TCTCCAAATG ACTACGAAGA AGATGCAATA 
GAAATGTTTG GCTTTCAGTG GGTTACTGAA ACTGCATTAG TTGAGTCCTG TGGACTTCTC 
TTTGGATTAC TTAGGCAACA AATATACAGA CTGGAAGAGC TAATAGAAAT GAATTCTTCT 
GACTTCGGTC AAGCTGCCAA CTTGCACTCA GAAGCAGAGA ACATCAGACG TCTGTGTCTA 
GAGTTTTTGC ATTACGTGAA AGTTTTCATC TTCAGGTATC TGGAACCCCC TAAAATGGAA 
AATGATGGAG TACTCCACCC ATATGAAGAA CTAGAAGCGC AGTTCCCATC AGTGTTGGTG 
GAAGAGCTTC ATTCTTTGAC CCTGCACATT GGTCACCTTT GTGAGCTCCC TAGTAGTGTC 
CTGGCAGCAT TTACCATTCA ACATCAAGCA AAGATCTTTC CACCATCGTG GCATTTACTA 
CACCTCCATT TGGATATCCA TTGGCTAGTG CTGGAAATTC TTCACGTACT AGGTGAAAAA 
ATGATGAGGC AAGTTGTATA TGCTAACCAT TTCATAAATC TAACTGGGGA GAATTTAACC 
AACATCAGTT TATTTGAAAC ACACTGTGAA AATCTCGTAT CTGATTTAAT AAGCTTGTCC 
ATCCAGAAGT ATACCAAGGT AAGACCTTCT GAGGCTCTTA CTAGTCACCA TTATCCCTGC 
AACTGCATTA AGGAACTGTG GATTCTACTT ATTCAGCTGC TGGACTTCAG AAATAAAGGA 
TCTCAAACAG AGTGTTTCTG GAGCTTGGTG AACAAAAATA TAAAGAGCAT CTATGAAAGA 
CCAAGTAGTT CTGAAAGTAC GTCTGTCTTT GAAACAGCTC AGTGTAAAGA TCCATTGAGT 
TTTAGCTGGT GGATTATTAC TCATCTGGCA TCACTCCACC AGTTTGACCG TAATGGAAAT 
CTAGAAGAGA AGAAACGGAA GGAATCCAAT TGGAAGTTCG TGGAAGAACT CCTTAAAAAT 
TCTATTGGTG CTCAAACTGG TGTGTTAGAG GAACAGTTAC GAATGCATCT TCAGTGCTGT 
TTGACTTTGT GTCATTTCTG GGACTGGAAC CTATCCGTCG TCACCATACT CTGGGATTAT 
TACAGCAAGA ACCTGAACAG TTGCTTTACT GTTCCTTGGC TTGGACTGAA GGGTCTGGCA 
AGTATTAGTA AAACTTCTTT GTCAATGCTT GAGTTGGTGA AAAGTTGCTG TTGTGAACAG 
CAAATTCCCA CCCTGTACAA GTCCAGCAAC AGTTACCTCA TTTTCCTCAG CATTTTGGCA 
CGGATGATGA AAGAAGAGGC AGAGAACAGT GGTGTGCATC CTTGGAAACA AATCAAAGGA 
CGAGTTTATT CCAAGTTCCA TCGGAAAAGA ATGCAGGAAC TGACAGAAGT GGGGCTGCAG 
AACTTTTTTA ACCTCTTCCT CCTGCTAGCA ATCATTGCAG AAACAGAAGA TATAGTGAGT 
CGAGTGCTGG ACCTTTTGGA TTTCCTGACT CCATCCTTGG TTAGCCCATC TCAGAGAGCT 
CTCATTTGGA GAGGCCATTT TGCTTTCCTT CTGATTTATG TTGAGAAGAA CATGGACATT 
AGTGTCCTAG CTGAGAAACT CTCAAATGCT TTTCGTGACA AGGCAAAGGA GTTTTTAGTA 
ACCAAAAATG ACTACATACA GAAACAAAAT CTCTGGACTC TGCTTTCAAC GTACATCGAT 
GGTGTCCAAG AAGTGTTTGA GACCAGCTGC TACTTGAGCC TTTCTGAGGA AAAGTTGCTA 
AATGATGGCT TTACTATGCT ACTGCCTGCT TGTCGAGGAG CTGAACTGAG TATGGTCTTG 
AATTTTCTTC AGGTTGTTAT AGCCAGACTT CGGAGTGTGC ACGAACGTGT AAGCCAGGGA 
CTTCAACCAG GGAATGCAGA CCCTAACGCT CAGCTCCCAT TAGTGGCTAA AGAGCACCAC 
CTTGCTGTCG CCAGTGCTCT CTGGAGAAAT TTCTTTCCCT ATTTGAAGAG CCAGAGAATG 
TCACAGATGC CACCTTCCCC TCAGCTTGCT GATACAGCTG CAGGTTTTAC TCTCTTGGCA 
CTGGATATAC CCAGCAAAGC TCTATCGGAT CTTCAGCCAC AACCTATTCT ATCAATGATG 
CAGCTGTTTG GATGGGATGA TATGGTGTGG CCTCACCTAG TGTCAAGATA TCTGAGTCAC 
CTAATTCAAA ACAGTGCTCT GTGTGAAGCT TTTTCTAGTA TGGGATACGC ATCCTATGAA 
GCTTTGACAG TACGTTCTTG GTTTCGATGC GTTTTGCAAA TGTTCATAGA TCAACCGAGT 
GGTACGCTGG CCAAGACAGA TGCTGAGCGA ACAGTTGCGA AAGCCTATAT GGAACAGCTG 
ACTGAAATGA CAAGACTGAT TTTTAAACTC AAGGAAGTAG AAAACATTCT CTCAAAGGCT 
CGTGTCGAAG AATCGGTTTT GAAACAAGAT CCTAAAAATG CTCTTGTCCA ATTCATTAAG 
GCTGTCGGTA GAACTTATAG TGGCCTTCAG ACACTCCCTG AGAAATCTGC CATGGTACTA 
AAGGCTCTGG AGTATTTAGG TGATGTATTA AAGTATGTAA AACCTTATCT GAAGGCAAAA 
GGGCCCCCAG AAGGTCTGCA ACTTGCATAT TGGATCATAG GATGTCTTGT AAAATTCTGG 
GCACCAATAC TGGCCACTTC CAAAGCACAG CAACTCCTGT TCCGCATCAT AGATTGCTTG 
CTGCTGCCTC ACTCTGTGCT GCAGCAGGAC AAAGAGCTGC CTGGGGCTTT ACTGTCTGCC 
ATACAGGAAA GCCTACACCT TTATCTTCAG GGCCTGTCCT TTATATGTTG TCAATCCCAA 
GCTCAGGGGG CCTATTTAAA TCAACTGCTC GGGAGCATTG TTCAACAGTA TTTTGGACGA 
TTTCTCCCGT CTTCACCAAC TGCACTTGGA GCTGGGCAGC ATCCTATGCT GACTGCTTTA 
TGTAGTTCCA TTACAGTCCC TCAGGCGCTC CGTCTACGAA AGACCACTCT GCATGTCATA 
AATGAAAACT ACATGCAGTT CAAAGGTAGC GCTCCACCTC CTCGCTTGGC CTCAGTCCTT 
GCTTTCATTC TTGAAGTACT TCAGAGAACC CAGACCAGTG AATTGTGTGA CATTGAACTG 
GTTCTCCCAG CTGTGTTGAA GTGCATGGTA TTGGTTAACG AGCTACAAGT TAAAAAAATA 
TCTACAGTCA TTGTGCAGTA CATGGTACAA GGCTGCCAAG CAAGGTCAGG AGGAGAACAT 
GCCACCCAGC TGACTTCTGT ATTTAGGCAG TTTATCCAGG ACTACACTGC AGTGTATGAT 
CACCGGGTGT TCAGCATTCT AGAAACAGTG GCGGTCTTGG ATCAGACATT AGTTACCAGC 
CTGATTCCCA CGCTGACGCA GTCTCTGAAG GATTCAGAGT ACAAACAAGG TCTTGGAAGA 
AATGCTGCAC AAAGAGAAGC CTACAAAAGG CTCTTAACTC ACCTCTCGGA GGCTGGACAA 
AATGAGATAC AAAAACTGGA AAATGAGGCA GGTTAG

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

RefSeq	XP_021247718.1
CDS	156..3911
Translation	MGTMDDDFMDSFTPPLLSDSLQMAMEVEYEKSKPCCFSCIFDNQNGGRNFSAESYLASGSLKRVLLRLDPSPNDYEEDAIEMFGFQWVTETALVESCGLLFGLLRQQIYRLEELIEMNSSDFGQAANLHSEAENIRRLCLEFLHYVKVFIFRYLEPPKMENDGVLHPYEELEAQFPSVLVEELHSLTLHIGHLCELPSSVLAAFTIQHQAKIFPPSWHLLHLHLDIHWLVLEILHVLGEKMMRQVVYANHFINLTGENLTNISLFETHCENLVSDLISLSIQKYTKVRPSEALTSHHYPCNCIKELWILLIQLLDFRNKGSQTECFWSLVNKNIKSIYERPSSSESTSVFETAQCKDPLSFSWWIITHLASLHQFDRNGNLEEKKRKESNWKFVEELLKNSIGAQTGVLEEQLRMHLQCCLTLCHFWDWNLSVVTILWDYYSKNLNSCFTVPWLGLKGLASISKTSLSMLELVKSCCCEQQIPTLYKSSNSYLIFLSILARMMKEEAENSGVHPWKQIKGRVYSKFHRKRMQELTEVGLQNFFNLFLLLAIIAETEDIVSRVLDLLDFLTPSLVSPSQRALIWRGHFAFLLIYVEKNMDISVLAEKLSNAFRDKAKEFLVTKNDYIQKQNLWTLLSTYIDGVQEVFETSCYLSLSEEKLLNDGFTMLLPACRGAELSMVLNFLQVVIARLRSVHERVSQGLQPGNADPNAQLPLVAKEHHLAVASALWRNFFPYLKSQRMSQMPPSPQLADTAAGFTLLALDIPSKALSDLQPQPILSMMQLFGWDDMVWPHLVSRYLSHLIQNSALCEAFSSMGYASYEALTVRSWFRCVLQMFIDQPSGTLAKTDAERTVAKAYMEQLTEMTRLIFKLKEVENILSKARVEESVLKQDPKNALVQFIKAVGRTYSGLQTLPEKSAMVLKALEYLGDVLKYVKPYLKAKGPPEGLQLAYWIIGCLVKFWAPILATSKAQQLLFRIIDCLLLPHSVLQQDKELPGALLSAIQESLHLYLQGLSFICCQSQAQGAYLNQLLGSIVQQYFGRFLPSSPTALGAGQHPMLTALCSSITVPQALRLRKTTLHVINENYMQFKGSAPPPRLASVLAFILEVLQRTQTSELCDIELVLPAVLKCMVLVNELQVKKISTVIVQYMVQGCQARSGGEHATQLTSVFRQFIQDYTAVYDHRVFSILETVAVLDQTLVTSLIPTLTQSLKDSEYKQGLGRNAAQREAYKRLLTHLSEAGQNEIQKLENEAG

Target ORF information:

RefSeq Version	XM_021392043.1
Organism	Numida meleagris(helmeted guineafowl)
Definition	Numida meleagris 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_021392043.1

ORF Insert Sequence:

ATGGGAACAA TGGACGATGA CTTTATGGAT TCCTTCACGC CCCCACTTCT CAGTGACAGC 
CTGCAGATGG CAATGGAGGT GGAGTATGAG AAGTCAAAGC CTTGTTGTTT TTCCTGTATT 
TTTGACAACC AAAATGGAGG GAGAAACTTC TCTGCAGAGT CTTACTTAGC AAGTGGGTCT 
CTTAAGAGGG TTTTGCTGAG ACTGGATCCT TCTCCAAATG ACTACGAAGA AGATGCAATA 
GAAATGTTTG GCTTTCAGTG GGTTACTGAA ACTGCATTAG TTGAGTCCTG TGGACTTCTC 
TTTGGATTAC TTAGGCAACA AATATACAGA CTGGAAGAGC TAATAGAAAT GAATTCTTCT 
GACTTCGGTC AAGCTGCCAA CTTGCACTCA GAAGCAGAGA ACATCAGACG TCTGTGTCTA 
GAGTTTTTGC ATTACGTGAA AGTTTTCATC TTCAGGTATC TGGAACCCCC TAAAATGGAA 
AATGATGGAG TACTCCACCC ATATGAAGAA CTAGAAGCGC AGTTCCCATC AGTGTTGGTG 
GAAGAGCTTC ATTCTTTGAC CCTGCACATT GGTCACCTTT GTGAGCTCCC TAGTAGTGTC 
CTGGCAGCAT TTACCATTCA ACATCAAGCA AAGATCTTTC CACCATCGTG GCATTTACTA 
CACCTCCATT TGGATATCCA TTGGCTAGTG CTGGAAATTC TTCACGTACT AGGTGAAAAA 
ATGATGAGGC AAGTTGTATA TGCTAACCAT TTCATAAATC TAACTGGGGA GAATTTAACC 
AACATCAGTT TATTTGAAAC ACACTGTGAA AATCTCGTAT CTGATTTAAT AAGCTTGTCC 
ATCCAGAAGT ATACCAAGGT AAGACCTTCT GAGGCTCTTA CTAGTCACCA TTATCCCTGC 
AACTGCATTA AGGAACTGTG GATTCTACTT ATTCAGCTGC TGGACTTCAG AAATAAAGGA 
TCTCAAACAG AGTGTTTCTG GAGCTTGGTG AACAAAAATA TAAAGAGCAT CTATGAAAGA 
CCAAGTAGTT CTGAAAGTAC GTCTGTCTTT GAAACAGCTC AGTGTAAAGA TCCATTGAGT 
TTTAGCTGGT GGATTATTAC TCATCTGGCA TCACTCCACC AGTTTGACCG TAATGGAAAT 
CTAGAAGAGA AGAAACGGAA GGAATCCAAT TGGAAGTTCG TGGAAGAACT CCTTAAAAAT 
TCTATTGGTG CTCAAACTGG TGTGTTAGAG GAACAGTTAC GAATGCATCT TCAGTGCTGT 
TTGACTTTGT GTCATTTCTG GGACTGGAAC CTATCCGTCG TCACCATACT CTGGGATTAT 
TACAGCAAGA ACCTGAACAG TTGCTTTACT GTTCCTTGGC TTGGACTGAA GGGTCTGGCA 
AGTATTAGTA AAACTTCTTT GTCAATGCTT GAGTTGGTGA AAAGTTGCTG TTGTGAACAG 
CAAATTCCCA CCCTGTACAA GTCCAGCAAC AGTTACCTCA TTTTCCTCAG CATTTTGGCA 
CGGATGATGA AAGAAGAGGC AGAGAACAGT GGTGTGCATC CTTGGAAACA AATCAAAGGA 
CGAGTTTATT CCAAGTTCCA TCGGAAAAGA ATGCAGGAAC TGACAGAAGT GGGGCTGCAG 
AACTTTTTTA ACCTCTTCCT CCTGCTAGCA ATCATTGCAG AAACAGAAGA TATAGTGAGT 
CGAGTGCTGG ACCTTTTGGA TTTCCTGACT CCATCCTTGG TTAGCCCATC TCAGAGAGCT 
CTCATTTGGA GAGGCCATTT TGCTTTCCTT CTGATTTATG TTGAGAAGAA CATGGACATT 
AGTGTCCTAG CTGAGAAACT CTCAAATGCT TTTCGTGACA AGGCAAAGGA GTTTTTAGTA 
ACCAAAAATG ACTACATACA GAAACAAAAT CTCTGGACTC TGCTTTCAAC GTACATCGAT 
GGTGTCCAAG AAGTGTTTGA GACCAGCTGC TACTTGAGCC TTTCTGAGGA AAAGTTGCTA 
AATGATGGCT TTACTATGCT ACTGCCTGCT TGTCGAGGAG CTGAACTGAG TATGGTCTTG 
AATTTTCTTC AGGTTGTTAT AGCCAGACTT CGGAGTGTGC ACGAACGTGT AAGCCAGGGA 
CTTCAACCAG GGAATGCAGA CCCTAACGCT CAGCTCCCAT TAGTGGCTAA AGAGCACCAC 
CTTGCTGTCG CCAGTGCTCT CTGGAGAAAT TTCTTTCCCT ATTTGAAGAG CCAGAGAATG 
TCACAGATGC CACCTTCCCC TCAGCTTGCT GATACAGCTG CAGGTTTTAC TCTCTTGGCA 
CTGGATATAC CCAGCAAAGC TCTATCGGAT CTTCAGCCAC AACCTATTCT ATCAATGATG 
CAGCTGTTTG GATGGGATGA TATGGTGTGG CCTCACCTAG TGTCAAGATA TCTGAGTCAC 
CTAATTCAAA ACAGTGCTCT GTGTGAAGCT TTTTCTAGTA TGGGATACGC ATCCTATGAA 
GCTTTGACAG TACGTTCTTG GTTTCGATGC GTTTTGCAAA TGTTCATAGA TCAACCGAGT 
GGTACGCTGG CCAAGACAGA TGCTGAGCGA ACAGTTGCGA AAGCCTATAT GGAACAGCTG 
ACTGAAATGA CAAGACTGAT TTTTAAACTC AAGGAAGTAG AAAACATTCT CTCAAAGGCT 
CGTGTCGAAG AATCGGTTTT GAAACAAGAT CCTAAAAATG CTCTTGTCCA ATTCATTAAG 
GCTGTCGGTA GAACTTATAG TGGCCTTCAG ACACTCCCTG AGAAATCTGC CATGGTACTA 
AAGGCTCTGG AGTATTTAGG TGATGTATTA AAGTATGTAA AACCTTATCT GAAGGCAAAA 
GGGCCCCCAG AAGGTCTGCA ACTTGCATAT TGGATCATAG GATGTCTTGT AAAATTCTGG 
GCACCAATAC TGGCCACTTC CAAAGCACAG CAACTCCTGT TCCGCATCAT AGATTGCTTG 
CTGCTGCCTC ACTCTGTGCT GCAGCAGGAC AAAGAGCTGC CTGGGGCTTT ACTGTCTGCC 
ATACAGGAAA GCCTACACCT TTATCTTCAG GGCCTGTCCT TTATATGTTG TCAATCCCAA 
GCTCAGGGGG CCTATTTAAA TCAACTGCTC GGGAGCATTG TTCAACAGTA TTTTGGACGA 
TTTCTCCCGT CTTCACCAAC TGCACTTGGA GCTGGGCAGC ATCCTATGCT GACTGCTTTA 
TGTAGTTCCA TTACAGTCCC TCAGGCGCTC CGTCTACGAA AGACCACTCT GCATGTCATA 
AATGAAAACT ACATGCAGTT CAAAGGTAGC GCTCCACCTC CTCGCTTGGC CTCAGTCCTT 
GCTTTCATTC TTGAAGTACT TCAGAGAACC CAGACCAGTG AATTGTGTGA CATTGAACTG 
GTTCTCCCAG CTGTGTTGAA GTGCATGGTA TTGGTTAACG AGCTACAAGT TAAAAAAATA 
TCTACAGTCA TTGTGCAGTA CATGGTACAA GGCTGCCAAG CAAGGTCAGG AGGAGAACAT 
GCCACCCAGC TGACTTCTGT ATTTAGGCAG TTTATCCAGG ACTACACTGC AGTGTATGAT 
CACCGGGTGT TCAGCATTCT AGAAACAGTG GCGGTCTTGG ATCAGACATT AGTTACCAGC 
CTGATTCCCA CGCTGACGCA GTCTCTGAAG GATTCAGAGT ACAAACAAGG TCTTGGAAGA 
AATGCTGCAC AAAGAGAAGC CTACAAAAGG CTCTTAACTC ACCTCTCGGA GGCTGGACAA 
AATGAGATAC AAAAACTGGA AAATGAGGCA GGTTAG