MRC1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	MRC1
Entrez Gene ID	100465906
Full Name	mannose receptor C-type 1
Synonyms	MRC1L1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002918637.3	XP_002918683.1	macrophage mannose receptor 1

Pathways from BioSystems
Gene Ontology

The following MRC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MRC1 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
OAc06159	XM_002918637.3 Latest version!	Ailuropoda melanoleuca mannose receptor C-type 1 (MRC1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

MRC1 ( XM_002918637.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002918683.1 Ailuropoda melanoleuca mannose receptor C-type 1 (MRC1), transcript variant X1, mRNA.

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CloneID	OAc06159
Clone ID Related Accession (Same CDS sequence)	XM_002918637.3
Accession Version	XM_002918637.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4368bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	macrophage mannose receptor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217564.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002918637.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGGCCGT CCCTGCTCCT GGTTTTCCTC TCTCTCATTC CGGTTGCTGT ACAGCTGTTG 
GACACTAAGC AATTTTTAAT ATATAATGAA GATCACAAGC GCTGCGTGGA AGCATTAAGT 
CCCAGTGCAG TCCAAACAGC GGTTTGCAAC CAGGACAATG AAGCACAGAA ATTCCGATGG 
GTGTCTGAAT CCCGGATTAT GAGTGTTGCT TTTAAATTAT GTCTGGGGGT ACCATCAAAA 
ACGGATTGGG TCGCTGTCAC TCTGTATGCC TGTGACCCGA AGAGCGAATT TCAGAAATGG 
GAGTGCAAAA ATGACACACT TTTGGGGATC AAGGGAGAAG ATTTATTTTT TAACTATGGC 
AATAAACAAG AAAAGAATAT TATGCTTTAC AAGGGTTCCG GTTTATGGAG CAGATGGAAA 
ATCTATGGAA CCACAGATGA TTTATGCTCT AGAGGTTATG AAGACATGTA CACGCTGCTG 
GGCAATTCCA ACGGGGCAAC GTGTGCCTTT CCATTCAAGT TTGAAAACAA GTGGTATGCA 
GATTGCACCA GTGCTGGGCG ATCAGACGGG TGGCTCTGGT GTGGAACCAC TGCAGACTAT 
GACGCGGACA AGCTATTTGG ATATTGTCCG TTGAAATTTG AGGGCAGTGA AAGCTTATGG 
AATAAAGACC CGCTGACTGG CATTTCCTAC CAGATAAACT CCAAATCTGC GTTAACTTGG 
CACCAGGCAC GGAGAAGCTG CCAACAACAG AGTGCCGAAC TCTTGAGTGT CACGGAGATA 
CACGAGCAAA CGTACCTAAC AGGATTAACC AGTTCCTTGA CCTCAGGACT CTGGATTGGA 
CTTAACAGCC TCAGTTTCAA CAGTGGATGG CAGTGGAGTG GTGGCAGTCC ATTCCGATAT 
TTGAACTGGT TACCAGGAAG TCCGTCAACA GAACCTGGAA AAAGCTGTGT GTCACTAAAT 
CCTGGGAAAA ATGCTAAATG GGAAAATCTG GAATGTGTTC AGAGACTAGG CTATATTTGT 
AAAAAGGGCA ACACAACTTT GAATTCCTTT GTGATTCCCT CTGAAAGTGA TGTACCTACT 
AACTGTCCAA GTCAGTGGTG GCCGTACGCA GGTCACTGCT ACAAGATTCA CAGAGAGGAG 
AAGAAAATCC AAAGAGATGC CTTGACTGCA TGTCGGAAGG AAGGTGGTGA TCTAGCCAGT 
ATCCACAGCA TTGAGGAATT TGACTTTATC ATCTCCCAAC TGGGATATGA GCCAAATGAT 
GAGTTATGGA TCGGCTTAAA TGATATCAAG ATTCAAATGT ATTTTGAGTG GAGTGATGGG 
ACCCCTGTTA CATTTACTAA ATGGCTTCGT GGGGAACCAA GCCATGAAAA CAACAGGCAA 
GAAGACTGTG TTGTAATGAA AGGCAAGGAT GGGTACTGGG CAGATCGGGC CTGCGAGCGG 
CCTCTTGACT ACATCTGTAA GATGAGATCT CAAACCCAAC CCTCGGGAGC AGTGCAAGTA 
GAACAAGGCT GCCGGAAAGG CTGGAAAAGA CATGGCTTCT ACTGTTATTT GATTGGACAC 
ACACTTTCAA CATTTATGGA AGCAAACCAA ACCTGTATAA ATGAGAAGGC TTACTTAACA 
ACTGTTGAAG ACAGATATGA ACAAGCCTTT CTGACTAGTT TGGTTGGATT GAGGCCTGAA 
AGATATTTTT GGACAGGACT TTCGGATGTG CAAAACAAAG GGACCTTTCA GTGGACCATT 
GAGGAAAAGG TTCAGTTCAC CCACTGGAAT TCAGATATGC CAGGGCGGAA AACAGGATGT 
GTTGCCATGA GAACTGGAGT TGCAGGGGGC TTGTGGGATG TTTTGAGATG TGAAGAAAAA 
GCAAAATTTG TATGCAAACA TTGGGCAGAA GGAGTCACTC GCCCGCCGGA GCCCACGACA 
ACTCCCGAAC CCAAATGTCC AGAGGATTGG GGCACCAGCA GTAAAACAAG CTTGTGTTTC 
AAGCTGTTTG CAAAAGGAAA ACATGAGAAG AAAACCTGGT TTGAATCTCG AGATTTTTGT 
AAAGCTCTGG GCGGTGACCT AGCTAGTATC AATAATAAAG AAGAACAGCA AACAATCTGG 
CGATTGATAG CGGCTAGCGG AAGCTACCAT GAACTATTTT GGCTGGGGTT GACATATGGA 
AGCCCTTCAG AGGGCTTTAC TTGGAGTGAT GGCTCTCCTG TTTCATATGA AAATTGGGCT 
TATGGAGAAC CTAACAATTA TCAAAATGTT GAATACTGTG GTGAGTTGAA AGGGGACTCT 
GGTATGTCCT GGAATGACAT TAACTGCGAA CATCTTAACA ACTGGATTTG CCAGATACAA 
AAAGGACAAA CCCCAAAACC TGAGCCAACA CCAGCTCCTC AAGACAATCC ACCAGTCACT 
GAAGATGGGT GGGTTATTTA CAAAGACTAC CAGTATTATT TTAGCAAAGA GAAGGAAACC 
ATGGACAAAG CCCGAGAATT TTGCAAGAAG AACTTTGGTG ATCTTGTTTC TATTCAAAGT 
GAAAGTAAAA AGAAGTTTCT ATGGAAATAT GTAAACAGGA ATGATGCACA GCCAGCGTAT 
TTTATTGGCT TACGGATCAG CTTGGATAAA AAGTTTATTT GGATGGACGG AAGCAAAGTG 
GATTACGTGG CTTGGGCCAC AGGTGAACCT AATTTTGCAA ATGACGATGA AAACTGCGTG 
ACCATGTATT CAAATTCAGG GTTTTGGAAT GACATTAATT GTGGTTATCC AAATGCCTTC 
ATCTGCCAGA GACATAATAG CAGCATCAAT GCCACCGTGA CTCCAACGGT GCCTTCAGTC 
CCAGGAGGTT GTAAGGAAGG CTGGAATTTT TACAATAACA AGTGTTTCAA AATCTTTGGA 
TTTGTGGAAG AAGAAAGAAA AAATTGGCAA GAGGCACGAA AAGCTTGCAT AGGATTTGGG 
GGAAATCTGG TATCGATCCG CAATGAAAAA GAGCAAGCAT TTCTTACTTA TCATATGAAG 
AACTCCACTT TTAATGCCTG GACTGGGCTG AATGACGTGA ATTCAGAGCA CACGTTCCTT 
TGGACGGATG GGCGAGGAGT TCATTACACA AACTGGGGGA AAGGTTATCC TGGTGGAAGA 
AGGAGCAGTC TTTCCTATGA AGATGCTGAC TGTGTGGTTA TTATTGGAGG GAAATCAAGG 
GATGCAGGAA AATGGATGGA TGACACGTGT GACAGTAAGC GGGGTTACAT ATGCCAGACA 
CTTTCCGACT CTTCCTTGCC TAATCCTCCA ACAACAATTC CAACAGATGG CTTTATTAAA 
TATGGTGAAA GTAACTATTC ACTCATGAAA TTAAAATTAG AGTGGCATGA AGCAGAGAAG 
TATTGCAAGC TTCACAGTTC CCTTATTGCT AGCATTCTCG ATCCCTACAG CAATGCATTT 
GCGTGGATGC AAATGCAAAG ATTTAATGAA CCTGTGTGGA TCGCCCTGAA CAGCAACTTG 
ACCAATAACG AGTATGCTTG GACTGACAAG TGGAGGGTGA GGTATACTAA CTGGGCTGCC 
GATGAGCCCA GACTGAAATC AGCCTGCGTT TATATGGATT CTGAAGGCTA CTGGAAGACA 
GCGTCCTGCA ATGAAAGTTT TTATTTTCTC TGCAAAAGAT CAGATGAAAA CCCTGCCACC 
GAGCCCCCAC AGCTGCCTGG AAGATGCCCC GAGTCAGAGC ACACAGCGTG GATTCCTTTC 
CACAGTCACT GCTACTATAT TGAATCGTCA TACACAAGAA ACTGGGGTCA AGCCTCTCTG 
GAATGCCTCC GAATGGGCTC CTCTTTGGCT TCCATTGAAA GTGCTGCTGA ATCAAGTTTT 
CTATCCTATC GAGTAGAGCC ACTTCAAAGC AAAACCAATT TTTGGATAGG ATTGTTCAGA 
AATGTTGAAG GGAAGTGGTT GTGGGTGAAC AACAATCCAG TCTCCTTTGC CAACTGGAAC 
ACAGGAGATC CCTCTAGTGA ACGAAATGAT TGTGTAGCTT TAACCGCATC GTCTGGATTT 
TGGAATACTG TTCACTGTTC TTCCTACAAA GGATATATTT GTAAGAGACC AAAAATTGTT 
GACATTGAAC CTACTCACAC ATTAATTACA ACAAAAGCTG ACCCAAGGAA GATGGGCCCT 
TCCAAACAGT CTTCCAGCGT GGCAGGAGTC GTCGTCATGG TGGTCCTCCT AATCATAACA 
GGTGCTGGCC TCGCAGCGTA TTTCTTTTAT AAGAAAAGAC GTGTGCACTT ACCTCAAGAG 
AACACTTTTG AAAACACTCT CTATTTTAAC AGCAGATCAA GTCCAGGAAC TAGTGATATG 
AAAGATCTCG TGGGCAACAT TGAACAGAAT GAACATGCAG GCATCTAG

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

RefSeq	XP_002918683.1
CDS	235..4602
Translation	MRPSLLLVFLSLIPVAVQLLDTKQFLIYNEDHKRCVEALSPSAVQTAVCNQDNEAQKFRWVSESRIMSVAFKLCLGVPSKTDWVAVTLYACDPKSEFQKWECKNDTLLGIKGEDLFFNYGNKQEKNIMLYKGSGLWSRWKIYGTTDDLCSRGYEDMYTLLGNSNGATCAFPFKFENKWYADCTSAGRSDGWLWCGTTADYDADKLFGYCPLKFEGSESLWNKDPLTGISYQINSKSALTWHQARRSCQQQSAELLSVTEIHEQTYLTGLTSSLTSGLWIGLNSLSFNSGWQWSGGSPFRYLNWLPGSPSTEPGKSCVSLNPGKNAKWENLECVQRLGYICKKGNTTLNSFVIPSESDVPTNCPSQWWPYAGHCYKIHREEKKIQRDALTACRKEGGDLASIHSIEEFDFIISQLGYEPNDELWIGLNDIKIQMYFEWSDGTPVTFTKWLRGEPSHENNRQEDCVVMKGKDGYWADRACERPLDYICKMRSQTQPSGAVQVEQGCRKGWKRHGFYCYLIGHTLSTFMEANQTCINEKAYLTTVEDRYEQAFLTSLVGLRPERYFWTGLSDVQNKGTFQWTIEEKVQFTHWNSDMPGRKTGCVAMRTGVAGGLWDVLRCEEKAKFVCKHWAEGVTRPPEPTTTPEPKCPEDWGTSSKTSLCFKLFAKGKHEKKTWFESRDFCKALGGDLASINNKEEQQTIWRLIAASGSYHELFWLGLTYGSPSEGFTWSDGSPVSYENWAYGEPNNYQNVEYCGELKGDSGMSWNDINCEHLNNWICQIQKGQTPKPEPTPAPQDNPPVTEDGWVIYKDYQYYFSKEKETMDKAREFCKKNFGDLVSIQSESKKKFLWKYVNRNDAQPAYFIGLRISLDKKFIWMDGSKVDYVAWATGEPNFANDDENCVTMYSNSGFWNDINCGYPNAFICQRHNSSINATVTPTVPSVPGGCKEGWNFYNNKCFKIFGFVEEERKNWQEARKACIGFGGNLVSIRNEKEQAFLTYHMKNSTFNAWTGLNDVNSEHTFLWTDGRGVHYTNWGKGYPGGRRSSLSYEDADCVVIIGGKSRDAGKWMDDTCDSKRGYICQTLSDSSLPNPPTTIPTDGFIKYGESNYSLMKLKLEWHEAEKYCKLHSSLIASILDPYSNAFAWMQMQRFNEPVWIALNSNLTNNEYAWTDKWRVRYTNWAADEPRLKSACVYMDSEGYWKTASCNESFYFLCKRSDENPATEPPQLPGRCPESEHTAWIPFHSHCYYIESSYTRNWGQASLECLRMGSSLASIESAAESSFLSYRVEPLQSKTNFWIGLFRNVEGKWLWVNNNPVSFANWNTGDPSSERNDCVALTASSGFWNTVHCSSYKGYICKRPKIVDIEPTHTLITTKADPRKMGPSKQSSSVAGVVVMVVLLIITGAGLAAYFFYKKRRVHLPQENTFENTLYFNSRSSPGTSDMKDLVGNIEQNEHAGI

Target ORF information:

RefSeq Version	XM_002918637.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca mannose receptor C-type 1 (MRC1), transcript variant X1, mRNA.

Target ORF information:

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

XM_002918637.3

ORF Insert Sequence:

ATGAGGCCGT CCCTGCTCCT GGTTTTCCTC TCTCTCATTC CGGTTGCTGT ACAGCTGTTG 
GACACTAAGC AATTTTTAAT ATATAATGAA GATCACAAGC GCTGCGTGGA AGCATTAAGT 
CCCAGTGCAG TCCAAACAGC GGTTTGCAAC CAGGACAATG AAGCACAGAA ATTCCGATGG 
GTGTCTGAAT CCCGGATTAT GAGTGTTGCT TTTAAATTAT GTCTGGGGGT ACCATCAAAA 
ACGGATTGGG TCGCTGTCAC TCTGTATGCC TGTGACCCGA AGAGCGAATT TCAGAAATGG 
GAGTGCAAAA ATGACACACT TTTGGGGATC AAGGGAGAAG ATTTATTTTT TAACTATGGC 
AATAAACAAG AAAAGAATAT TATGCTTTAC AAGGGTTCCG GTTTATGGAG CAGATGGAAA 
ATCTATGGAA CCACAGATGA TTTATGCTCT AGAGGTTATG AAGACATGTA CACGCTGCTG 
GGCAATTCCA ACGGGGCAAC GTGTGCCTTT CCATTCAAGT TTGAAAACAA GTGGTATGCA 
GATTGCACCA GTGCTGGGCG ATCAGACGGG TGGCTCTGGT GTGGAACCAC TGCAGACTAT 
GACGCGGACA AGCTATTTGG ATATTGTCCG TTGAAATTTG AGGGCAGTGA AAGCTTATGG 
AATAAAGACC CGCTGACTGG CATTTCCTAC CAGATAAACT CCAAATCTGC GTTAACTTGG 
CACCAGGCAC GGAGAAGCTG CCAACAACAG AGTGCCGAAC TCTTGAGTGT CACGGAGATA 
CACGAGCAAA CGTACCTAAC AGGATTAACC AGTTCCTTGA CCTCAGGACT CTGGATTGGA 
CTTAACAGCC TCAGTTTCAA CAGTGGATGG CAGTGGAGTG GTGGCAGTCC ATTCCGATAT 
TTGAACTGGT TACCAGGAAG TCCGTCAACA GAACCTGGAA AAAGCTGTGT GTCACTAAAT 
CCTGGGAAAA ATGCTAAATG GGAAAATCTG GAATGTGTTC AGAGACTAGG CTATATTTGT 
AAAAAGGGCA ACACAACTTT GAATTCCTTT GTGATTCCCT CTGAAAGTGA TGTACCTACT 
AACTGTCCAA GTCAGTGGTG GCCGTACGCA GGTCACTGCT ACAAGATTCA CAGAGAGGAG 
AAGAAAATCC AAAGAGATGC CTTGACTGCA TGTCGGAAGG AAGGTGGTGA TCTAGCCAGT 
ATCCACAGCA TTGAGGAATT TGACTTTATC ATCTCCCAAC TGGGATATGA GCCAAATGAT 
GAGTTATGGA TCGGCTTAAA TGATATCAAG ATTCAAATGT ATTTTGAGTG GAGTGATGGG 
ACCCCTGTTA CATTTACTAA ATGGCTTCGT GGGGAACCAA GCCATGAAAA CAACAGGCAA 
GAAGACTGTG TTGTAATGAA AGGCAAGGAT GGGTACTGGG CAGATCGGGC CTGCGAGCGG 
CCTCTTGACT ACATCTGTAA GATGAGATCT CAAACCCAAC CCTCGGGAGC AGTGCAAGTA 
GAACAAGGCT GCCGGAAAGG CTGGAAAAGA CATGGCTTCT ACTGTTATTT GATTGGACAC 
ACACTTTCAA CATTTATGGA AGCAAACCAA ACCTGTATAA ATGAGAAGGC TTACTTAACA 
ACTGTTGAAG ACAGATATGA ACAAGCCTTT CTGACTAGTT TGGTTGGATT GAGGCCTGAA 
AGATATTTTT GGACAGGACT TTCGGATGTG CAAAACAAAG GGACCTTTCA GTGGACCATT 
GAGGAAAAGG TTCAGTTCAC CCACTGGAAT TCAGATATGC CAGGGCGGAA AACAGGATGT 
GTTGCCATGA GAACTGGAGT TGCAGGGGGC TTGTGGGATG TTTTGAGATG TGAAGAAAAA 
GCAAAATTTG TATGCAAACA TTGGGCAGAA GGAGTCACTC GCCCGCCGGA GCCCACGACA 
ACTCCCGAAC CCAAATGTCC AGAGGATTGG GGCACCAGCA GTAAAACAAG CTTGTGTTTC 
AAGCTGTTTG CAAAAGGAAA ACATGAGAAG AAAACCTGGT TTGAATCTCG AGATTTTTGT 
AAAGCTCTGG GCGGTGACCT AGCTAGTATC AATAATAAAG AAGAACAGCA AACAATCTGG 
CGATTGATAG CGGCTAGCGG AAGCTACCAT GAACTATTTT GGCTGGGGTT GACATATGGA 
AGCCCTTCAG AGGGCTTTAC TTGGAGTGAT GGCTCTCCTG TTTCATATGA AAATTGGGCT 
TATGGAGAAC CTAACAATTA TCAAAATGTT GAATACTGTG GTGAGTTGAA AGGGGACTCT 
GGTATGTCCT GGAATGACAT TAACTGCGAA CATCTTAACA ACTGGATTTG CCAGATACAA 
AAAGGACAAA CCCCAAAACC TGAGCCAACA CCAGCTCCTC AAGACAATCC ACCAGTCACT 
GAAGATGGGT GGGTTATTTA CAAAGACTAC CAGTATTATT TTAGCAAAGA GAAGGAAACC 
ATGGACAAAG CCCGAGAATT TTGCAAGAAG AACTTTGGTG ATCTTGTTTC TATTCAAAGT 
GAAAGTAAAA AGAAGTTTCT ATGGAAATAT GTAAACAGGA ATGATGCACA GCCAGCGTAT 
TTTATTGGCT TACGGATCAG CTTGGATAAA AAGTTTATTT GGATGGACGG AAGCAAAGTG 
GATTACGTGG CTTGGGCCAC AGGTGAACCT AATTTTGCAA ATGACGATGA AAACTGCGTG 
ACCATGTATT CAAATTCAGG GTTTTGGAAT GACATTAATT GTGGTTATCC AAATGCCTTC 
ATCTGCCAGA GACATAATAG CAGCATCAAT GCCACCGTGA CTCCAACGGT GCCTTCAGTC 
CCAGGAGGTT GTAAGGAAGG CTGGAATTTT TACAATAACA AGTGTTTCAA AATCTTTGGA 
TTTGTGGAAG AAGAAAGAAA AAATTGGCAA GAGGCACGAA AAGCTTGCAT AGGATTTGGG 
GGAAATCTGG TATCGATCCG CAATGAAAAA GAGCAAGCAT TTCTTACTTA TCATATGAAG 
AACTCCACTT TTAATGCCTG GACTGGGCTG AATGACGTGA ATTCAGAGCA CACGTTCCTT 
TGGACGGATG GGCGAGGAGT TCATTACACA AACTGGGGGA AAGGTTATCC TGGTGGAAGA 
AGGAGCAGTC TTTCCTATGA AGATGCTGAC TGTGTGGTTA TTATTGGAGG GAAATCAAGG 
GATGCAGGAA AATGGATGGA TGACACGTGT GACAGTAAGC GGGGTTACAT ATGCCAGACA 
CTTTCCGACT CTTCCTTGCC TAATCCTCCA ACAACAATTC CAACAGATGG CTTTATTAAA 
TATGGTGAAA GTAACTATTC ACTCATGAAA TTAAAATTAG AGTGGCATGA AGCAGAGAAG 
TATTGCAAGC TTCACAGTTC CCTTATTGCT AGCATTCTCG ATCCCTACAG CAATGCATTT 
GCGTGGATGC AAATGCAAAG ATTTAATGAA CCTGTGTGGA TCGCCCTGAA CAGCAACTTG 
ACCAATAACG AGTATGCTTG GACTGACAAG TGGAGGGTGA GGTATACTAA CTGGGCTGCC 
GATGAGCCCA GACTGAAATC AGCCTGCGTT TATATGGATT CTGAAGGCTA CTGGAAGACA 
GCGTCCTGCA ATGAAAGTTT TTATTTTCTC TGCAAAAGAT CAGATGAAAA CCCTGCCACC 
GAGCCCCCAC AGCTGCCTGG AAGATGCCCC GAGTCAGAGC ACACAGCGTG GATTCCTTTC 
CACAGTCACT GCTACTATAT TGAATCGTCA TACACAAGAA ACTGGGGTCA AGCCTCTCTG 
GAATGCCTCC GAATGGGCTC CTCTTTGGCT TCCATTGAAA GTGCTGCTGA ATCAAGTTTT 
CTATCCTATC GAGTAGAGCC ACTTCAAAGC AAAACCAATT TTTGGATAGG ATTGTTCAGA 
AATGTTGAAG GGAAGTGGTT GTGGGTGAAC AACAATCCAG TCTCCTTTGC CAACTGGAAC 
ACAGGAGATC CCTCTAGTGA ACGAAATGAT TGTGTAGCTT TAACCGCATC GTCTGGATTT 
TGGAATACTG TTCACTGTTC TTCCTACAAA GGATATATTT GTAAGAGACC AAAAATTGTT 
GACATTGAAC CTACTCACAC ATTAATTACA ACAAAAGCTG ACCCAAGGAA GATGGGCCCT 
TCCAAACAGT CTTCCAGCGT GGCAGGAGTC GTCGTCATGG TGGTCCTCCT AATCATAACA 
GGTGCTGGCC TCGCAGCGTA TTTCTTTTAT AAGAAAAGAC GTGTGCACTT ACCTCAAGAG 
AACACTTTTG AAAACACTCT CTATTTTAAC AGCAGATCAA GTCCAGGAAC TAGTGATATG 
AAAGATCTCG TGGGCAACAT TGAACAGAAT GAACATGCAG GCATCTAG

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

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MRC1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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