MATN2 cDNA ORF clone, Pelecanus crispus(Dalmatian pelican)

Gene
Clones
gRNAs

Summary

Gene Symbol	MATN2
Entrez Gene ID	104037543
Full Name	matrilin 2
Gene Type	protein-coding
Organism	Pelecanus crispus(Dalmatian pelican)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009491537.1	XP_009489812.1	LOW QUALITY PROTEIN: matrilin-2

Pathways from BioSystems
Gene Ontology

The following MATN2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MATN2 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
OPe124130	XM_009491537.1 Latest version!	Pelecanus crispus matrilin 2 (MATN2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$510.30 $729.00

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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)

MATN2 ( XM_009491537.1 ) cDNA ORF clone, Pelecanus crispus(Dalmatian pelican) -> XP_009489812.1 Pelecanus crispus matrilin 2 (MATN2), mRNA.

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CloneID	OPe124130
Clone ID Related Accession (Same CDS sequence)	XM_009491537.1
Accession Version	XM_009491537.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2793bp) 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	2014-10-05
Organism	Pelecanus crispus(Dalmatian pelican)
Product	LOW QUALITY PROTEIN: matrilin-2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009113023.1) 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 :: Pelecanus crispus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGACAATTG CAGCTGTTGT GGAAAGACTT GGTTGGCAGG CAGAAGTGAA CAATATAGCT 
GCAAAGAACC AACAAGATAC CTGGAAAGAA AAGACTTGCA ACAACAAACG TCTGGACCTT 
GTCTTCATCA TTGACAGCTC TCGCAGCGTA CGTCCTTATG ACTTTGAAAA AGTGAAGGAG 
TTCATTTTAA CCATCTTGCA GTTTCTGGAC ATCAGTCCTG ATGCCACCCG CGTAGGTCTG 
ATTCAGTACG GCAGCACAGT CAAACATGAG TTTTCGCTGA AGACATTCAG GAGGAAGCAG 
GATATCGAAA GAGCCGTGAA GAGGATGATG CACCTGGCAA CCGGCACCAT GACTGGACTG 
GCTATTCAGT ATGCAGTGAA CATCGCATTT TCAGAGTCAG AAGGAGCTCG ACCTCTGAAG 
CAGAATGTAC CCCGAATTAT CATGATAGTG ACGGATGGGA GACCTCAGGA TCCAGTGGCA 
GAAATTGCCA CTAAAGCACG TAACTCAGGA ATCCTGATTT TTGCCATTGG AGTGGGAAGA 
GTAGATATGA ACACGCTGAA GTCCATTGGG AGTGAACCGC ATGAAGAGCA TGTGTTTCTG 
GTTGCCAATT TCAGTCAGAT TGAAACACTG ACCTCTGTCT TCCAGACTAA ACTTTGTGTG 
CCCCATATGT GCAGTACAGT TGAGCATCAT TGTGATCACT TCTGCATAAA CACCCCTGGC 
TCCTACATAT GCAGATGTAA GCAAGGATAC GTTCTGAATG CTGACCAGAA GACTTGCAGC 
ACTCAGGACC TTTGTGCTGT GGAGAAACAT GCCTGTGAGC AGATTTGTGT GAACACACCA 
GGGTCTTACG TCTGTCAGTG TTACGAAGGT TATGAGCTTG ATGCAAACGG AAAGAATTGT 
GTTGTTGTAG ACTACTGTGC TTTGGATAAC CAAGGTTGCC AACATGAATG TGTTAACACC 
GAGGACTCCT ATTACTGTAG ATGCCACCCA GGGTTCATTT TAAATCCAGA CAAAAGAACT 
TGCAGAAGAC CAGACTATTG TGCTCTTCAG GACCATGGCT GTGAACAGGA ATGTGTTAAT 
ACAGATGATT CCTATTTTTG TCAATGCCAA GAAGGGTTTA GACTTAATCC AGATAAGAAA 
ACATGCAGAA AATTAAATTT CTGTGCTTTA GGTCAGCATG ACTATGAACA TGAATGTCTT 
AACTTGGAAG AGTCATTTGT GCGCAAATGT CATCCTGGAT ACACCCAACA ACATGATGGC 
AATACGTGCA GAAATGAGTG AGTGGACCAC TGTGCTGAAA GCAATCATGG CTGCGAGCAA 
CTTTGCCTAA ACACTGATGG CTCCTATGTC TGTCAGTGCT CTGAAGGATT TGTCATCAAC 
GAGGACCTAA AAACCTGCAC ACGAGTTGAC TATTGTGCTC TGAGTGATCA TGGCTGTGAA 
CATTTGTGTG TAAATGGCGA GAGATCTTAC ACCTGTCAGT GTTTTGAAGG ATACAGGCTT 
CGTAATGATG GGAAAACATG CAAACGACGG GACATCTGCA AATCAGTCAG CCATGGCTGT 
GAGCATATTT GTGTTAACGA AGATGACTCA TATGTTTGCA AGTGTCATGA GGGTTTTCTG 
CTGAGAGAAG ATGGGAAAAC ATGCAGAAGC AAGGATATTT GCAAATCAGT CAACCATGGC 
TGTGAACATG CTTGTGTTAA TGCTGGTGAT TCATTTGTTT GTAAGTGTCA GGAGGGATTC 
CTGCTAAGAG AAGATGGAAA AACATGCAAA AATAAAGACC TGTGTAAATC CATTGACCAT 
GGCTGTGAAC ATGTGTGCAT TAACAATAAC AATTCATACA GCTGTCAGTG CCATGAGGGT 
TTTGTCCTGA GACAAGACGG GAAAACATGT CGAAGATGCA CTGAAGGCCC AGTTGACCTG 
GTGTTTGTGA TTGATGGATC AAAAAGTCTC GGAGAGGATA ATTTTGAAAT TGTAAAACAA 
TTTGTCTCAG GAATCTTGGA TTCACTTGAG ATTTCACCCA AAGCTGCTCG AGTTGGTTTG 
CTTCAGTATT CCACTGAAGT CCGCACAGAG TTTACGTTAA GGCAGTTCAG CTCAGCCAAA 
GACATGAAGA AAGCTGTATC ACAAATGAAA TACATGGGGC GAGGTTCCAT GACAGGACTG 
GCTCTGAAGC AAATGTTTGA GAGAAGCTTC ACAGAAACAG AAGGAGCAAG ACCATTTTCA 
GCAAATGTCC CTCGAATCTC CATTGTGTTT ACGGATGGAC GAGCCCAAGA TGAAGTCTCC 
GAGTGGGCTG CTAGAGCAAA GCAAAATGGT ATAATTATCT ATGCCATTGG AATAGGAAAA 
GCAATTGAGG AAGAACTACT GGAAATTGCT TCTGAACCAT CATATAAGCA TCTCTTCTAT 
GCTGAGGATT TCACAGCTAT GGAGGACATA AGTGAAGAGC TAAGAGCCCA AATCTGTGAA 
GCCTTGAAAG AGTCAGCTCA CCAGCAGCAT CCATCATCTG GGAAGCTTCA TAAGTCTGGT 
CCGCAGCCTT CAGGACCTGA ATCAACCACA ATAGCCATCA CAGATGTCAT TGCCTGTCCC 
AATCTTGCAA TACACCACAA GTATCTTTTT GAAGACAGTC ACACTCACTC AACAAGAACA 
ACAGCAAAAG CTTCAAAAGA CAAAGATGAG TGCAAATGTG AAAACCTTGT GACATTCCAG 
AACTATGCAA CCAATGAAGT AAGAAAACTC ACCCAGCGAT ATATCCTTCA GAGTAATTGT 
TTTCTTACAT ATAAGACAAG CGGGGCAGGT TAA

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

RefSeq	XP_009489812.1
CDS	1..2793
Translation	MTIAAVVERLGWQAEVNNIAAKNQQDTWKEKTCNNKRLDLVFIIDSSRSVRPYDFEKVKEFILTILQFLDISPDATRVGLIQYGSTVKHEFSLKTFRRKQDIERAVKRMMHLATGTMTGLAIQYAVNIAFSESEGARPLKQNVPRIIMIVTDGRPQDPVAEIATKARNSGILIFAIGVGRVDMNTLKSIGSEPHEEHVFLVANFSQIETLTSVFQTKLCVPHMCSTVEHHCDHFCINTPGSYICRCKQGYVLNADQKTCSTQDLCAVEKHACEQICVNTPGSYVCQCYEGYELDANGKNCVVVDYCALDNQGCQHECVNTEDSYYCRCHPGFILNPDKRTCRRPDYCALQDHGCEQECVNTDDSYFCQCQEGFRLNPDKKTCRKLNFCALGQHDYEHECLNLEESFVRKCHPGYTQQHDGNTCRNE*VDHCAESNHGCEQLCLNTDGSYVCQCSEGFVINEDLKTCTRVDYCALSDHGCEHLCVNGERSYTCQCFEGYRLRNDGKTCKRRDICKSVSHGCEHICVNEDDSYVCKCHEGFLLREDGKTCRSKDICKSVNHGCEHACVNAGDSFVCKCQEGFLLREDGKTCKNKDLCKSIDHGCEHVCINNNNSYSCQCHEGFVLRQDGKTCRRCTEGPVDLVFVIDGSKSLGEDNFEIVKQFVSGILDSLEISPKAARVGLLQYSTEVRTEFTLRQFSSAKDMKKAVSQMKYMGRGSMTGLALKQMFERSFTETEGARPFSANVPRISIVFTDGRAQDEVSEWAARAKQNGIIIYAIGIGKAIEEELLEIASEPSYKHLFYAEDFTAMEDISEELRAQICEALKESAHQQHPSSGKLHKSGPQPSGPESTTIAITDVIACPNLAIHHKYLFEDSHTHSTRTTAKASKDKDECKCENLVTFQNYATNEVRKLTQRYILQSNCFLTYKTSGAG

Target ORF information:

RefSeq Version	XM_009491537.1
Organism	Pelecanus crispus(Dalmatian pelican)
Definition	Pelecanus crispus matrilin 2 (MATN2), mRNA.

Target ORF information:

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

XM_009491537.1

ORF Insert Sequence:

ATGACAATTG CAGCTGTTGT GGAAAGACTT GGTTGGCAGG CAGAAGTGAA CAATATAGCT 
GCAAAGAACC AACAAGATAC CTGGAAAGAA AAGACTTGCA ACAACAAACG TCTGGACCTT 
GTCTTCATCA TTGACAGCTC TCGCAGCGTA CGTCCTTATG ACTTTGAAAA AGTGAAGGAG 
TTCATTTTAA CCATCTTGCA GTTTCTGGAC ATCAGTCCTG ATGCCACCCG CGTAGGTCTG 
ATTCAGTACG GCAGCACAGT CAAACATGAG TTTTCGCTGA AGACATTCAG GAGGAAGCAG 
GATATCGAAA GAGCCGTGAA GAGGATGATG CACCTGGCAA CCGGCACCAT GACTGGACTG 
GCTATTCAGT ATGCAGTGAA CATCGCATTT TCAGAGTCAG AAGGAGCTCG ACCTCTGAAG 
CAGAATGTAC CCCGAATTAT CATGATAGTG ACGGATGGGA GACCTCAGGA TCCAGTGGCA 
GAAATTGCCA CTAAAGCACG TAACTCAGGA ATCCTGATTT TTGCCATTGG AGTGGGAAGA 
GTAGATATGA ACACGCTGAA GTCCATTGGG AGTGAACCGC ATGAAGAGCA TGTGTTTCTG 
GTTGCCAATT TCAGTCAGAT TGAAACACTG ACCTCTGTCT TCCAGACTAA ACTTTGTGTG 
CCCCATATGT GCAGTACAGT TGAGCATCAT TGTGATCACT TCTGCATAAA CACCCCTGGC 
TCCTACATAT GCAGATGTAA GCAAGGATAC GTTCTGAATG CTGACCAGAA GACTTGCAGC 
ACTCAGGACC TTTGTGCTGT GGAGAAACAT GCCTGTGAGC AGATTTGTGT GAACACACCA 
GGGTCTTACG TCTGTCAGTG TTACGAAGGT TATGAGCTTG ATGCAAACGG AAAGAATTGT 
GTTGTTGTAG ACTACTGTGC TTTGGATAAC CAAGGTTGCC AACATGAATG TGTTAACACC 
GAGGACTCCT ATTACTGTAG ATGCCACCCA GGGTTCATTT TAAATCCAGA CAAAAGAACT 
TGCAGAAGAC CAGACTATTG TGCTCTTCAG GACCATGGCT GTGAACAGGA ATGTGTTAAT 
ACAGATGATT CCTATTTTTG TCAATGCCAA GAAGGGTTTA GACTTAATCC AGATAAGAAA 
ACATGCAGAA AATTAAATTT CTGTGCTTTA GGTCAGCATG ACTATGAACA TGAATGTCTT 
AACTTGGAAG AGTCATTTGT GCGCAAATGT CATCCTGGAT ACACCCAACA ACATGATGGC 
AATACGTGCA GAAATGAGTG AGTGGACCAC TGTGCTGAAA GCAATCATGG CTGCGAGCAA 
CTTTGCCTAA ACACTGATGG CTCCTATGTC TGTCAGTGCT CTGAAGGATT TGTCATCAAC 
GAGGACCTAA AAACCTGCAC ACGAGTTGAC TATTGTGCTC TGAGTGATCA TGGCTGTGAA 
CATTTGTGTG TAAATGGCGA GAGATCTTAC ACCTGTCAGT GTTTTGAAGG ATACAGGCTT 
CGTAATGATG GGAAAACATG CAAACGACGG GACATCTGCA AATCAGTCAG CCATGGCTGT 
GAGCATATTT GTGTTAACGA AGATGACTCA TATGTTTGCA AGTGTCATGA GGGTTTTCTG 
CTGAGAGAAG ATGGGAAAAC ATGCAGAAGC AAGGATATTT GCAAATCAGT CAACCATGGC 
TGTGAACATG CTTGTGTTAA TGCTGGTGAT TCATTTGTTT GTAAGTGTCA GGAGGGATTC 
CTGCTAAGAG AAGATGGAAA AACATGCAAA AATAAAGACC TGTGTAAATC CATTGACCAT 
GGCTGTGAAC ATGTGTGCAT TAACAATAAC AATTCATACA GCTGTCAGTG CCATGAGGGT 
TTTGTCCTGA GACAAGACGG GAAAACATGT CGAAGATGCA CTGAAGGCCC AGTTGACCTG 
GTGTTTGTGA TTGATGGATC AAAAAGTCTC GGAGAGGATA ATTTTGAAAT TGTAAAACAA 
TTTGTCTCAG GAATCTTGGA TTCACTTGAG ATTTCACCCA AAGCTGCTCG AGTTGGTTTG 
CTTCAGTATT CCACTGAAGT CCGCACAGAG TTTACGTTAA GGCAGTTCAG CTCAGCCAAA 
GACATGAAGA AAGCTGTATC ACAAATGAAA TACATGGGGC GAGGTTCCAT GACAGGACTG 
GCTCTGAAGC AAATGTTTGA GAGAAGCTTC ACAGAAACAG AAGGAGCAAG ACCATTTTCA 
GCAAATGTCC CTCGAATCTC CATTGTGTTT ACGGATGGAC GAGCCCAAGA TGAAGTCTCC 
GAGTGGGCTG CTAGAGCAAA GCAAAATGGT ATAATTATCT ATGCCATTGG AATAGGAAAA 
GCAATTGAGG AAGAACTACT GGAAATTGCT TCTGAACCAT CATATAAGCA TCTCTTCTAT 
GCTGAGGATT TCACAGCTAT GGAGGACATA AGTGAAGAGC TAAGAGCCCA AATCTGTGAA 
GCCTTGAAAG AGTCAGCTCA CCAGCAGCAT CCATCATCTG GGAAGCTTCA TAAGTCTGGT 
CCGCAGCCTT CAGGACCTGA ATCAACCACA ATAGCCATCA CAGATGTCAT TGCCTGTCCC 
AATCTTGCAA TACACCACAA GTATCTTTTT GAAGACAGTC ACACTCACTC AACAAGAACA 
ACAGCAAAAG CTTCAAAAGA CAAAGATGAG TGCAAATGTG AAAACCTTGT GACATTCCAG 
AACTATGCAA CCAATGAAGT AAGAAAACTC ACCCAGCGAT ATATCCTTCA GAGTAATTGT 
TTTCTTACAT ATAAGACAAG CGGGGCAGGT TAA