MALRD1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	MALRD1
Entrez Gene ID	105758970
Full Name	MAM and LDL receptor class A domain containing 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012571430.1	XP_012426884.1	MAM and LDL-receptor class A domain-containing protein 1
XM_030267198.1	XP_030123058.1	MAM and LDL-receptor class A domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following MALRD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MALRD1 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
OTd21263	XM_012571430.1 Latest version!	Taeniopygia guttata MAM and LDL receptor class A domain containing 1 (MALRD1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	29-31	$1091.30 $1559.00

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Next-day Shipping ORF Clones ( in default vector with tag)
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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)

MALRD1 ( XM_012571430.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426884.1 Taeniopygia guttata MAM and LDL receptor class A domain containing 1 (MALRD1), mRNA.

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CloneID	OTd21263
Clone ID Related Accession (Same CDS sequence)	XM_012571430.1
Accession Version	XM_012571430.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 6426bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	MAM and LDL-receptor class A domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198269.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGAACAGGC TCCTATCCGT CTGTGTGCTC TATTGCTTTG CTCAGGTGGA CACTCAGCCA 
TCCACAGCAA GTGGGTGCCA GCGTGGGGAT GGTTCTTCTG CTCCACCTGG AGAAGTGTGC 
ATCTCCACAG GCTGCTGTGG AGACAGCGGT GATGAGAAAC AAGGTTCCTC CTGGAACAAC 
TGTGATTTTG AAACCAATCT GTGCAAACTT CTTCCTGAAT TCAATTTACA GCCTGGCTGG 
ATAAGAAGAA ATGGTCAGTC TGGGATGGGA CCACCATACT TTGACCACAA TGGGAATGAG 
AGTGCTTATT TCCTCTCATT GTCCTCTGAA ATGCAATCCT CTTCTGCAGT TTTAAGGACA 
AGCGTTTTCC TTCCAACTGA TGAAGAACAC CTTTGCCAGA TTAGATTCCA TTATTGGGTC 
AGTCAAATGA GCAAAACATT AATGGTGGGG CTTCAAAAGC TCTCTGAAGA TACTGTTACA 
AACATTTGGC AAGTTTCGGG AGAACTACAA AATCAGTGGA ACATAAATAC CATTACAATC 
AATAGCACCG AAAAGTTTGA GGTTATTTTT TCGGGGATGG TGGAGACCCA GGGACAAGGT 
GAAAGTGTTG CCATTGATGA TATTACCTTT AGTGAAGGAT GTTCTGTAGC ACATGTACCA 
CAGATTTCCA TTTTTGAGCT TGGTGTGTGT GAGTGGCACT CAGACCAGCC AGCTGAGCCT 
GCTCAGGGGG CACGGCTGCA AACTGGGCAC AAGATTGCCT CCTGTTCCTT CCTGGAGGAT 
TCCAGCAAGG ATACTGAAGG CCATTTTGAA TGGTTAGAAA CTAATGACAA GGCATTATAT 
GAAAGGGCCC ATCTAAACAG CTCCATGTGT CATTGCTCCA GCAAGTCTTG CCATTTTCAG 
TTTCACTACT CCATGGCAGA TAGTAGTGTT CTCAAGATAG TACTGCTTAT GAATCAGGAG 
GAGTATGTCT TGTGGGAAAC CAACATCATG ACTAAGAAGG AATGGGTCAA AATGAATATA 
CAGCTACCAA TAGGGCTAGA AAATATAAAG CTTGTGTTTA AAGGAACACT GCAGAGCAGG 
GCAGGTTTCA TCTGCCTGAA TAGCATCCAG CTCTTGGATA CTGCACCATC AGAGCCAGCA 
GGTTCCTGCT CCTTGGAAGA ACCCCCCTGC AGGGCTGGGC AGCCCAAGGC CCCTGGATCA 
GCCTGTGACT CTCACCCAGA CTGCCCTGAT GGCAGCGATC AGGACCCAGC CACCTGCTCT 
AATTACACCT TGTGTGATTT TGAGACTGAC CTCTGTGGAT GGAAGCCACT GAGCAAAGGT 
GATGCTGACT GGAACATAAT GAAAGGACAG GCTCCCCGTG ACAGAGAACT CCCTGGCAGA 
GGTCAAACAA ATAATATAGA GCATGGAGCA TTCATTTACT TCAGTGGATC ACATCAGAGG 
AACACAAAGA TGGCCATGTC TCACCTGGGA AGCCCTTTCC TTGTCAAGCT TACCCCTGGG 
CTCTCCTGCT GCCAGGTAAG ATTTTGGTAC TGGTTATCTC AGGATTCCCA GCTTTCTGTC 
TTTAAGAAGA CTGCATTAAA TGGAAGTTTG GAAAAATTAT ATGACATTTC AGGATTGCCT 
GAGATGAACT GGAGAAAAGT GAATATACCT GTAGAAAGTC TGGCTGAAGA ATTGCCTTTT 
CAGATTGTCT TGCGGGGTAC TATTCTAACA ACAAATGCTA CTGTTGCTGT TGATGATATC 
AGTATAGCAG GGGAATGTGT AATTGTGAAT GGATCACTTC CAGAAGTCAG CCAGGAAAGT 
AAAGCTGCTG TGTGTGACTT TGAAAGAGAG AGCTGTGGTT GGATTGAAGC TGTAAATACA 
GATGAGTTTG ACTGGGTAAG AAGCTCCAGC AATGCTCTTC CACCTGCATT TCAGAAGCAA 
GCTCCTCCAC GGGATCACAC CTATAACAAA CCTGAAGGTC ATTTTATGTT CATTCTGAAG 
AGCAGCAACA GCATTTCACA AATAGCTCGG CTACGAAGCC CTAAGTTCAG GCAAACAGGA 
TCAAATTGCA CACTGTCCTT TTGGTATTAC AATTACGGAG AGTCAGTTGG GGCAGCAGAG 
CTGCAATTGC TTGTGGATGG GCTGGGACAG CCTACTGTCC TTTGGAGGAC GTATTACAAC 
GAGGGAAATC AGTGGCTGAA GGCAGTCATT CAGCTTGGAC GCCTTCCACA TCCTTTCCAA 
TTTTCACTGG AAAAAATCAG TCTGGGTGTT TATGAAGGCG TCTCAGCAAT TGATGATATT 
AGATTTGAAA ACTGTGCTCT CCCACCTCCA GCATTAATTT GTGAAGGTCC AAATCGCTTC 
TGGTGCAGAG ACACAAAAGC TTGTATTGAC AGTTTATTGG TCTGTGATCT CGTGGATGAC 
TGTGGGGATG GATCGGATGA AGACAACTGT GACCCTGACC TACAGTGTAA CTTTGAAAAT 
GGGCTGTGCA ATTGGGAGCA GGATGTTCAG GATGACTTTG ACTGGATCAG AATACGGGGT 
CCAACCCCCA CAGTCAATAC AGGCCCGTTA AAGGATCACA CGACAGGCAC AGCCAGAGGA 
CACTACCTTT ACCTGGAGTC CTCTGAGCCA CGCCTATTCC AAGATAAAGC AGTTTTGCTT 
AGTCCTCTCT TCAACCCTTC TGGCTATGGA ACCTGTGTTT TCCGCTTCCA TTATCACATG 
TTTGGAAAAG AAGTTTATAA GCTGTCAGTC TTCCAAAGAA CTGTGAGTAA TGCTAAGGGA 
TGGCTGTTGT GGTACAAGTT TGGAAATCAA GAAAACAGAT GGATCAGACA GACACTCTTC 
ATCAGCAGTT CTAAGCCATT TCAGATTTTG GTGAAAGGTA TTGTAGGAGA TGGTTTCACC 
GGAGACATCG GACTTGATGA TGTGTCTTTT CTGGGCTGTA CTCTCTACAA TGGATACTTG 
CCCACTATTT CTACAACTAC TTCAGGAACT TCAGTTCCTG CCACGCTCCC CATGAACAAC 
TGCACAGAGA AGGAGTTTGT CTGTCGAGCC TCTGGCCACT GCATCCAGAT GATCCAGAAG 
TGTGATTTTA GACCTGACTG CTCTGATAAG TCTGATGAAT CAGCTTGTGT TATGGAAGTC 
TGTGACTTTG AAGATAAAGA CCTGTGTGGA TGGCATCAAC CAGCCTTGGA ACAGATGTCA 
CGAAATTACT CCATACTTTT CACAAAGACA TTCAAGTGGC AACTTGGAAG AGGAGCAAAT 
CTCTACCCTG AGGAAGAACA ACACTGCCCA TTAACTGATC ATACTACGTG CACTGAAGAA 
GGCTGGTATC TCTTTGCAGA CAGCTCAAAT GGAGAATTTG GTGACACAGC TGACATTGCT 
ACCCCAGTCA TCTCCCTTAC AGGGCCCAGA TGCAAAATCA TATTCTGGAA CCACATGAAT 
GGTTCAACAA TAGGTTCTCT GGAGGTACTC TATAAGAGCA GTAACAAGAC TTCTAAACTG 
TGGATTCAAA GTGGCAGCCA AGGTCCCCAG TGGAACAGAG CAGAAGTGTT CTTAGGAATT 
CGTTCAAATT TTCAGGTTAT TTTCAGGACA AAACGTGGTG TCAGTTACAT GGGAGATGTG 
GCAGTGGATG ATATTACCTT TGAAGATTGT TCCCCTCTGC TAATCTCAGA CAAACCTTGC 
ACATCAGAGG AATTCATGTG TGCCAACAAG TACTGCATCC CAAAGAATAA TCTGTGTGAT 
TTTGTAAATG ACTGTGAAGA TAACTCAGAT GAAAGCCCTA GTATTTGCAG TACATCTATT 
GGGCATTGCA ATTTTGAGTT TGACTTTTGT GGATGGAAGC AAGATGAAAA TGATGATTTC 
GACTGGTACC TCAGAACTAG CAGTACTGCA AAACTGGGCA CTGGACCAGC TACTGATCAT 
ACACTGCAAG AGTCATCTGG TCATTATATT TTTATAAAGA GTTCATTTTT TCAGCTACCA 
GGACAGAAAG CTAGGATTTC TAGTCCTGTC TTAAGCAGAA AGAATAAAAA CTGCAAGATA 
ATTTTCTATT ATCATATGTA TGGAGCTCAC ATTGGATCAT TGATTATCTA CCAGAGAACT 
ACACTGAAAC ACGAAAAAAT TCTCCTTAAT CTTACTGGAA ACCAGGGAAA TTACTGGCAG 
CGCAAGGCAC TGACCATGTC TGGAGATGGA GATGACGATT TTCAAGTTGT CTTTGAAGGG 
ATAGCTGGAG AAGGTCCCAA AGATGGCATA GCACTTGATG ACCTCACGTT TTCCAGGGAA 
TGCTTACCAT CCCAGGAGTT TTTACCAGCA GAACCCCCAG AGCTACCTCC AGCAGGCTCC 
TGCTCACATG GCCATAGGCA GTGCCAGAAT GGCAAGTGTT ACAGACCAGA ACAAAGCTGT 
GATTTTGAAG ACAACTGTGG GGATAATACA GACGAGAGTG AATGCGGAAC TTCCTGCACC 
TTTGAGAATG GCAGATGTGG CTGGCAGAAT TCCCTGGCTG ACAATTTCCA CTGGGTGCTG 
GGGGTCAGCT CGCCTCAAAG TCTCAGACCT CCCAGGGACC ACACGCTTGG AAATAGAACT 
GGACATTTCC TATATCTTGA GGCCACTGCA ATGAGCCTAA TAAATGAAAA AGCCCATGTG 
AAGAGTTCCA TATGGAAAGA ATCAAGTGGG ACTTGTGTGA TGAGCTTCTG GTACTTCAAG 
TCATCAAAAG CCATGGGACA TATTCAGGTT CTGATTAAGA CTGATGATGG GATTGTGAAA 
ATATGGAGTG AATCAGGAAC TCATGGTGAC GAGTGGAACA AAGTCGAGTT ACACTTGGGG 
AAGCTAAGAA ATTTTGAAAT TATCTTTGAA GGCATTCGTA CCAGAGATCT GGGAGGAGGA 
GCAGCAATAG ATGACATAGA GTTCCACAAC TGCACTACAA CTGGAGAGAA TCCCAGGGAA 
TGTCCTGCCC TCACTGATTT TGTGTGTGGG GATAAAAATT GCATAGAGTC TCAGCTCATC 
TGCGACTATA AACCAGACTG TGAAGACCTA TCAGATGAAG CTGACTGCAG TTACTACACA 
AGTATTCCTG GAAGCTGTAA CTTTGAAACA CAAGATCAAG AGTGGACAAC TGTATGTGGA 
TTAACACAAG ACACTACTGA TGATTTTGAC TGGAATATTA GCAACGGTGC TGTCACAGGG 
CAAACAGATC CTCATACTGA CCACACACCA GGTAAAGGAC AGAGATTTTT GTATGTCAAC 
TCATCCACCC AGAAGGAAGG AAACAGAGCA AGGATAACTA CCACCAAGTT CTTCCCAGCT 
AGTCTTGGGG TCTGTAGAGT TCGCTTCTGG TTCTGGATGT TTCCCTCTAG GCAAACAGGA 
GTCTTAAAGG TCTACACAGT TGAAGAACAT GGAATGGATA TCCTTATGTG GTCTTCTAGT 
AGAAATGAAG AAAACAAATG GATGTATGGA AGTGTGGCTC TCTCCAGTAA CAGTCTTTTC 
AGAGTTGCCT TTGAAGCTGA AGTGGGGTGG AGTCAACCCA CAGAATTTGC TCTAGATGAT 
ATTTCTTTCA CCCCAGAATG CATTGATGGA GGATCAGCTG ATCCACACCC TCCAACTTGC 
AGTGGGGACG AGTTCCCGTG TGCTTATGTG CAGCAATGTT TGCCCCTCGC CGCGCGGTGC 
AACGGGGTCG AAGAGTGCAT GGATGGCAGT GATGAAATGA GCTGCCCCAT GGAGGTGCCC 
ACCACCACCA TGTCCCCGGG CTCCTGCAGG GAAGCAGAGT TCCTGTGTCC TTCCCAAGGC 
TGTGTCCTGT CCCTCCTGCT GTGCGATGGT GTCCCTGACT GCCGCCTCGG CGAAGATGAA 
GCTGGCTGCC CCATTAAAGA TTGTTCCAAT GGTTCTTTGT TATGTGCTTC AACTAATCAA 
TGTATACCAC TCTCCCAGCG TTGTGATGGA ATTGTAGACT GCATTGATTC CAGCCTTGAT 
GAATCTGGCT GTTCAGCTTG TCCTGAAGGA TACTGCAAAA ATGGCGGAAA ATGCACCATC 
AAAGATGACA TTCCATTGTG CCAATGTGGA AAAGGATGGA AAGGAAACCG TTGCCACATA 
AGTGCTAAGC CTCTTCAGCC TCCAAATCGC CTACAAAATG ATATTTGGAT TGGATTGGGT 
ATCGGTTTCT TACTGATTAA AATTACAGCT GCTGCCTTGT ATTTTCTTTT GAAGAAGAAA 
GTGCCAGAAA TGAAAGTGCA AGAAACTGCT ATTTCTTCAT TTGCCAATCC ATTGTACAAA 
GACCTTAGTT CATCTGGAAA AGTAAAGTCT CCTAGGTATG CCATCTCATC TGCTGTTCAA 
ATCAGTGTTT CTCCATGGCA TGAGTATCCA TTTAATGAAA ATGGGAATGC TACTTCTTTT 
CCAAATCCTC TCTATGGTGT AGCAGCAGAA GACATGGAGA AATTATGTAG CTCCTTGAAA 
ACTTAA

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

RefSeq	XP_012426884.1
CDS	1..6426
Translation	MNRLLSVCVLYCFAQVDTQPSTASGCQRGDGSSAPPGEVCISTGCCGDSGDEKQGSSWNNCDFETNLCKLLPEFNLQPGWIRRNGQSGMGPPYFDHNGNESAYFLSLSSEMQSSSAVLRTSVFLPTDEEHLCQIRFHYWVSQMSKTLMVGLQKLSEDTVTNIWQVSGELQNQWNINTITINSTEKFEVIFSGMVETQGQGESVAIDDITFSEGCSVAHVPQISIFELGVCEWHSDQPAEPAQGARLQTGHKIASCSFLEDSSKDTEGHFEWLETNDKALYERAHLNSSMCHCSSKSCHFQFHYSMADSSVLKIVLLMNQEEYVLWETNIMTKKEWVKMNIQLPIGLENIKLVFKGTLQSRAGFICLNSIQLLDTAPSEPAGSCSLEEPPCRAGQPKAPGSACDSHPDCPDGSDQDPATCSNYTLCDFETDLCGWKPLSKGDADWNIMKGQAPRDRELPGRGQTNNIEHGAFIYFSGSHQRNTKMAMSHLGSPFLVKLTPGLSCCQVRFWYWLSQDSQLSVFKKTALNGSLEKLYDISGLPEMNWRKVNIPVESLAEELPFQIVLRGTILTTNATVAVDDISIAGECVIVNGSLPEVSQESKAAVCDFERESCGWIEAVNTDEFDWVRSSSNALPPAFQKQAPPRDHTYNKPEGHFMFILKSSNSISQIARLRSPKFRQTGSNCTLSFWYYNYGESVGAAELQLLVDGLGQPTVLWRTYYNEGNQWLKAVIQLGRLPHPFQFSLEKISLGVYEGVSAIDDIRFENCALPPPALICEGPNRFWCRDTKACIDSLLVCDLVDDCGDGSDEDNCDPDLQCNFENGLCNWEQDVQDDFDWIRIRGPTPTVNTGPLKDHTTGTARGHYLYLESSEPRLFQDKAVLLSPLFNPSGYGTCVFRFHYHMFGKEVYKLSVFQRTVSNAKGWLLWYKFGNQENRWIRQTLFISSSKPFQILVKGIVGDGFTGDIGLDDVSFLGCTLYNGYLPTISTTTSGTSVPATLPMNNCTEKEFVCRASGHCIQMIQKCDFRPDCSDKSDESACVMEVCDFEDKDLCGWHQPALEQMSRNYSILFTKTFKWQLGRGANLYPEEEQHCPLTDHTTCTEEGWYLFADSSNGEFGDTADIATPVISLTGPRCKIIFWNHMNGSTIGSLEVLYKSSNKTSKLWIQSGSQGPQWNRAEVFLGIRSNFQVIFRTKRGVSYMGDVAVDDITFEDCSPLLISDKPCTSEEFMCANKYCIPKNNLCDFVNDCEDNSDESPSICSTSIGHCNFEFDFCGWKQDENDDFDWYLRTSSTAKLGTGPATDHTLQESSGHYIFIKSSFFQLPGQKARISSPVLSRKNKNCKIIFYYHMYGAHIGSLIIYQRTTLKHEKILLNLTGNQGNYWQRKALTMSGDGDDDFQVVFEGIAGEGPKDGIALDDLTFSRECLPSQEFLPAEPPELPPAGSCSHGHRQCQNGKCYRPEQSCDFEDNCGDNTDESECGTSCTFENGRCGWQNSLADNFHWVLGVSSPQSLRPPRDHTLGNRTGHFLYLEATAMSLINEKAHVKSSIWKESSGTCVMSFWYFKSSKAMGHIQVLIKTDDGIVKIWSESGTHGDEWNKVELHLGKLRNFEIIFEGIRTRDLGGGAAIDDIEFHNCTTTGENPRECPALTDFVCGDKNCIESQLICDYKPDCEDLSDEADCSYYTSIPGSCNFETQDQEWTTVCGLTQDTTDDFDWNISNGAVTGQTDPHTDHTPGKGQRFLYVNSSTQKEGNRARITTTKFFPASLGVCRVRFWFWMFPSRQTGVLKVYTVEEHGMDILMWSSSRNEENKWMYGSVALSSNSLFRVAFEAEVGWSQPTEFALDDISFTPECIDGGSADPHPPTCSGDEFPCAYVQQCLPLAARCNGVEECMDGSDEMSCPMEVPTTTMSPGSCREAEFLCPSQGCVLSLLLCDGVPDCRLGEDEAGCPIKDCSNGSLLCASTNQCIPLSQRCDGIVDCIDSSLDESGCSACPEGYCKNGGKCTIKDDIPLCQCGKGWKGNRCHISAKPLQPPNRLQNDIWIGLGIGFLLIKITAAALYFLLKKKVPEMKVQETAISSFANPLYKDLSSSGKVKSPRYAISSAVQISVSPWHEYPFNENGNATSFPNPLYGVAAEDMEKLCSSLKT

Target ORF information:

RefSeq Version	XM_012571430.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MAM and LDL receptor class A domain containing 1 (MALRD1), mRNA.

Target ORF information:

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

XM_012571430.1

ORF Insert Sequence:

ATGAACAGGC TCCTATCCGT CTGTGTGCTC TATTGCTTTG CTCAGGTGGA CACTCAGCCA 
TCCACAGCAA GTGGGTGCCA GCGTGGGGAT GGTTCTTCTG CTCCACCTGG AGAAGTGTGC 
ATCTCCACAG GCTGCTGTGG AGACAGCGGT GATGAGAAAC AAGGTTCCTC CTGGAACAAC 
TGTGATTTTG AAACCAATCT GTGCAAACTT CTTCCTGAAT TCAATTTACA GCCTGGCTGG 
ATAAGAAGAA ATGGTCAGTC TGGGATGGGA CCACCATACT TTGACCACAA TGGGAATGAG 
AGTGCTTATT TCCTCTCATT GTCCTCTGAA ATGCAATCCT CTTCTGCAGT TTTAAGGACA 
AGCGTTTTCC TTCCAACTGA TGAAGAACAC CTTTGCCAGA TTAGATTCCA TTATTGGGTC 
AGTCAAATGA GCAAAACATT AATGGTGGGG CTTCAAAAGC TCTCTGAAGA TACTGTTACA 
AACATTTGGC AAGTTTCGGG AGAACTACAA AATCAGTGGA ACATAAATAC CATTACAATC 
AATAGCACCG AAAAGTTTGA GGTTATTTTT TCGGGGATGG TGGAGACCCA GGGACAAGGT 
GAAAGTGTTG CCATTGATGA TATTACCTTT AGTGAAGGAT GTTCTGTAGC ACATGTACCA 
CAGATTTCCA TTTTTGAGCT TGGTGTGTGT GAGTGGCACT CAGACCAGCC AGCTGAGCCT 
GCTCAGGGGG CACGGCTGCA AACTGGGCAC AAGATTGCCT CCTGTTCCTT CCTGGAGGAT 
TCCAGCAAGG ATACTGAAGG CCATTTTGAA TGGTTAGAAA CTAATGACAA GGCATTATAT 
GAAAGGGCCC ATCTAAACAG CTCCATGTGT CATTGCTCCA GCAAGTCTTG CCATTTTCAG 
TTTCACTACT CCATGGCAGA TAGTAGTGTT CTCAAGATAG TACTGCTTAT GAATCAGGAG 
GAGTATGTCT TGTGGGAAAC CAACATCATG ACTAAGAAGG AATGGGTCAA AATGAATATA 
CAGCTACCAA TAGGGCTAGA AAATATAAAG CTTGTGTTTA AAGGAACACT GCAGAGCAGG 
GCAGGTTTCA TCTGCCTGAA TAGCATCCAG CTCTTGGATA CTGCACCATC AGAGCCAGCA 
GGTTCCTGCT CCTTGGAAGA ACCCCCCTGC AGGGCTGGGC AGCCCAAGGC CCCTGGATCA 
GCCTGTGACT CTCACCCAGA CTGCCCTGAT GGCAGCGATC AGGACCCAGC CACCTGCTCT 
AATTACACCT TGTGTGATTT TGAGACTGAC CTCTGTGGAT GGAAGCCACT GAGCAAAGGT 
GATGCTGACT GGAACATAAT GAAAGGACAG GCTCCCCGTG ACAGAGAACT CCCTGGCAGA 
GGTCAAACAA ATAATATAGA GCATGGAGCA TTCATTTACT TCAGTGGATC ACATCAGAGG 
AACACAAAGA TGGCCATGTC TCACCTGGGA AGCCCTTTCC TTGTCAAGCT TACCCCTGGG 
CTCTCCTGCT GCCAGGTAAG ATTTTGGTAC TGGTTATCTC AGGATTCCCA GCTTTCTGTC 
TTTAAGAAGA CTGCATTAAA TGGAAGTTTG GAAAAATTAT ATGACATTTC AGGATTGCCT 
GAGATGAACT GGAGAAAAGT GAATATACCT GTAGAAAGTC TGGCTGAAGA ATTGCCTTTT 
CAGATTGTCT TGCGGGGTAC TATTCTAACA ACAAATGCTA CTGTTGCTGT TGATGATATC 
AGTATAGCAG GGGAATGTGT AATTGTGAAT GGATCACTTC CAGAAGTCAG CCAGGAAAGT 
AAAGCTGCTG TGTGTGACTT TGAAAGAGAG AGCTGTGGTT GGATTGAAGC TGTAAATACA 
GATGAGTTTG ACTGGGTAAG AAGCTCCAGC AATGCTCTTC CACCTGCATT TCAGAAGCAA 
GCTCCTCCAC GGGATCACAC CTATAACAAA CCTGAAGGTC ATTTTATGTT CATTCTGAAG 
AGCAGCAACA GCATTTCACA AATAGCTCGG CTACGAAGCC CTAAGTTCAG GCAAACAGGA 
TCAAATTGCA CACTGTCCTT TTGGTATTAC AATTACGGAG AGTCAGTTGG GGCAGCAGAG 
CTGCAATTGC TTGTGGATGG GCTGGGACAG CCTACTGTCC TTTGGAGGAC GTATTACAAC 
GAGGGAAATC AGTGGCTGAA GGCAGTCATT CAGCTTGGAC GCCTTCCACA TCCTTTCCAA 
TTTTCACTGG AAAAAATCAG TCTGGGTGTT TATGAAGGCG TCTCAGCAAT TGATGATATT 
AGATTTGAAA ACTGTGCTCT CCCACCTCCA GCATTAATTT GTGAAGGTCC AAATCGCTTC 
TGGTGCAGAG ACACAAAAGC TTGTATTGAC AGTTTATTGG TCTGTGATCT CGTGGATGAC 
TGTGGGGATG GATCGGATGA AGACAACTGT GACCCTGACC TACAGTGTAA CTTTGAAAAT 
GGGCTGTGCA ATTGGGAGCA GGATGTTCAG GATGACTTTG ACTGGATCAG AATACGGGGT 
CCAACCCCCA CAGTCAATAC AGGCCCGTTA AAGGATCACA CGACAGGCAC AGCCAGAGGA 
CACTACCTTT ACCTGGAGTC CTCTGAGCCA CGCCTATTCC AAGATAAAGC AGTTTTGCTT 
AGTCCTCTCT TCAACCCTTC TGGCTATGGA ACCTGTGTTT TCCGCTTCCA TTATCACATG 
TTTGGAAAAG AAGTTTATAA GCTGTCAGTC TTCCAAAGAA CTGTGAGTAA TGCTAAGGGA 
TGGCTGTTGT GGTACAAGTT TGGAAATCAA GAAAACAGAT GGATCAGACA GACACTCTTC 
ATCAGCAGTT CTAAGCCATT TCAGATTTTG GTGAAAGGTA TTGTAGGAGA TGGTTTCACC 
GGAGACATCG GACTTGATGA TGTGTCTTTT CTGGGCTGTA CTCTCTACAA TGGATACTTG 
CCCACTATTT CTACAACTAC TTCAGGAACT TCAGTTCCTG CCACGCTCCC CATGAACAAC 
TGCACAGAGA AGGAGTTTGT CTGTCGAGCC TCTGGCCACT GCATCCAGAT GATCCAGAAG 
TGTGATTTTA GACCTGACTG CTCTGATAAG TCTGATGAAT CAGCTTGTGT TATGGAAGTC 
TGTGACTTTG AAGATAAAGA CCTGTGTGGA TGGCATCAAC CAGCCTTGGA ACAGATGTCA 
CGAAATTACT CCATACTTTT CACAAAGACA TTCAAGTGGC AACTTGGAAG AGGAGCAAAT 
CTCTACCCTG AGGAAGAACA ACACTGCCCA TTAACTGATC ATACTACGTG CACTGAAGAA 
GGCTGGTATC TCTTTGCAGA CAGCTCAAAT GGAGAATTTG GTGACACAGC TGACATTGCT 
ACCCCAGTCA TCTCCCTTAC AGGGCCCAGA TGCAAAATCA TATTCTGGAA CCACATGAAT 
GGTTCAACAA TAGGTTCTCT GGAGGTACTC TATAAGAGCA GTAACAAGAC TTCTAAACTG 
TGGATTCAAA GTGGCAGCCA AGGTCCCCAG TGGAACAGAG CAGAAGTGTT CTTAGGAATT 
CGTTCAAATT TTCAGGTTAT TTTCAGGACA AAACGTGGTG TCAGTTACAT GGGAGATGTG 
GCAGTGGATG ATATTACCTT TGAAGATTGT TCCCCTCTGC TAATCTCAGA CAAACCTTGC 
ACATCAGAGG AATTCATGTG TGCCAACAAG TACTGCATCC CAAAGAATAA TCTGTGTGAT 
TTTGTAAATG ACTGTGAAGA TAACTCAGAT GAAAGCCCTA GTATTTGCAG TACATCTATT 
GGGCATTGCA ATTTTGAGTT TGACTTTTGT GGATGGAAGC AAGATGAAAA TGATGATTTC 
GACTGGTACC TCAGAACTAG CAGTACTGCA AAACTGGGCA CTGGACCAGC TACTGATCAT 
ACACTGCAAG AGTCATCTGG TCATTATATT TTTATAAAGA GTTCATTTTT TCAGCTACCA 
GGACAGAAAG CTAGGATTTC TAGTCCTGTC TTAAGCAGAA AGAATAAAAA CTGCAAGATA 
ATTTTCTATT ATCATATGTA TGGAGCTCAC ATTGGATCAT TGATTATCTA CCAGAGAACT 
ACACTGAAAC ACGAAAAAAT TCTCCTTAAT CTTACTGGAA ACCAGGGAAA TTACTGGCAG 
CGCAAGGCAC TGACCATGTC TGGAGATGGA GATGACGATT TTCAAGTTGT CTTTGAAGGG 
ATAGCTGGAG AAGGTCCCAA AGATGGCATA GCACTTGATG ACCTCACGTT TTCCAGGGAA 
TGCTTACCAT CCCAGGAGTT TTTACCAGCA GAACCCCCAG AGCTACCTCC AGCAGGCTCC 
TGCTCACATG GCCATAGGCA GTGCCAGAAT GGCAAGTGTT ACAGACCAGA ACAAAGCTGT 
GATTTTGAAG ACAACTGTGG GGATAATACA GACGAGAGTG AATGCGGAAC TTCCTGCACC 
TTTGAGAATG GCAGATGTGG CTGGCAGAAT TCCCTGGCTG ACAATTTCCA CTGGGTGCTG 
GGGGTCAGCT CGCCTCAAAG TCTCAGACCT CCCAGGGACC ACACGCTTGG AAATAGAACT 
GGACATTTCC TATATCTTGA GGCCACTGCA ATGAGCCTAA TAAATGAAAA AGCCCATGTG 
AAGAGTTCCA TATGGAAAGA ATCAAGTGGG ACTTGTGTGA TGAGCTTCTG GTACTTCAAG 
TCATCAAAAG CCATGGGACA TATTCAGGTT CTGATTAAGA CTGATGATGG GATTGTGAAA 
ATATGGAGTG AATCAGGAAC TCATGGTGAC GAGTGGAACA AAGTCGAGTT ACACTTGGGG 
AAGCTAAGAA ATTTTGAAAT TATCTTTGAA GGCATTCGTA CCAGAGATCT GGGAGGAGGA 
GCAGCAATAG ATGACATAGA GTTCCACAAC TGCACTACAA CTGGAGAGAA TCCCAGGGAA 
TGTCCTGCCC TCACTGATTT TGTGTGTGGG GATAAAAATT GCATAGAGTC TCAGCTCATC 
TGCGACTATA AACCAGACTG TGAAGACCTA TCAGATGAAG CTGACTGCAG TTACTACACA 
AGTATTCCTG GAAGCTGTAA CTTTGAAACA CAAGATCAAG AGTGGACAAC TGTATGTGGA 
TTAACACAAG ACACTACTGA TGATTTTGAC TGGAATATTA GCAACGGTGC TGTCACAGGG 
CAAACAGATC CTCATACTGA CCACACACCA GGTAAAGGAC AGAGATTTTT GTATGTCAAC 
TCATCCACCC AGAAGGAAGG AAACAGAGCA AGGATAACTA CCACCAAGTT CTTCCCAGCT 
AGTCTTGGGG TCTGTAGAGT TCGCTTCTGG TTCTGGATGT TTCCCTCTAG GCAAACAGGA 
GTCTTAAAGG TCTACACAGT TGAAGAACAT GGAATGGATA TCCTTATGTG GTCTTCTAGT 
AGAAATGAAG AAAACAAATG GATGTATGGA AGTGTGGCTC TCTCCAGTAA CAGTCTTTTC 
AGAGTTGCCT TTGAAGCTGA AGTGGGGTGG AGTCAACCCA CAGAATTTGC TCTAGATGAT 
ATTTCTTTCA CCCCAGAATG CATTGATGGA GGATCAGCTG ATCCACACCC TCCAACTTGC 
AGTGGGGACG AGTTCCCGTG TGCTTATGTG CAGCAATGTT TGCCCCTCGC CGCGCGGTGC 
AACGGGGTCG AAGAGTGCAT GGATGGCAGT GATGAAATGA GCTGCCCCAT GGAGGTGCCC 
ACCACCACCA TGTCCCCGGG CTCCTGCAGG GAAGCAGAGT TCCTGTGTCC TTCCCAAGGC 
TGTGTCCTGT CCCTCCTGCT GTGCGATGGT GTCCCTGACT GCCGCCTCGG CGAAGATGAA 
GCTGGCTGCC CCATTAAAGA TTGTTCCAAT GGTTCTTTGT TATGTGCTTC AACTAATCAA 
TGTATACCAC TCTCCCAGCG TTGTGATGGA ATTGTAGACT GCATTGATTC CAGCCTTGAT 
GAATCTGGCT GTTCAGCTTG TCCTGAAGGA TACTGCAAAA ATGGCGGAAA ATGCACCATC 
AAAGATGACA TTCCATTGTG CCAATGTGGA AAAGGATGGA AAGGAAACCG TTGCCACATA 
AGTGCTAAGC CTCTTCAGCC TCCAAATCGC CTACAAAATG ATATTTGGAT TGGATTGGGT 
ATCGGTTTCT TACTGATTAA AATTACAGCT GCTGCCTTGT ATTTTCTTTT GAAGAAGAAA 
GTGCCAGAAA TGAAAGTGCA AGAAACTGCT ATTTCTTCAT TTGCCAATCC ATTGTACAAA 
GACCTTAGTT CATCTGGAAA AGTAAAGTCT CCTAGGTATG CCATCTCATC TGCTGTTCAA 
ATCAGTGTTT CTCCATGGCA TGAGTATCCA TTTAATGAAA ATGGGAATGC TACTTCTTTT 
CCAAATCCTC TCTATGGTGT AGCAGCAGAA GACATGGAGA AATTATGTAG CTCCTTGAAA 
ACTTAA

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

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MALRD1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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