LOC107510024 cDNA ORF clone, Rousettus aegyptiacus(Egyptian rousette)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC107510024
Entrez Gene ID	107510024
Full Name	fibronectin type-III domain-containing protein 3A
Gene Type	protein-coding
Organism	Rousettus aegyptiacus(Egyptian rousette)

mRNA and Protein(s)

mRNA	Protein	Name
XM_016143136.1	XP_015998622.1	fibronectin type-III domain-containing protein 3A

Pathways from BioSystems
Gene Ontology

The following LOC107510024 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107510024 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
ORo10365	XM_016143136.1 Latest version!	Rousettus aegyptiacus fibronectin type-III domain-containing protein 3A (LOC107510024), 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)

LOC107510024 ( XM_016143136.1 ) cDNA ORF clone, Rousettus aegyptiacus(Egyptian rousette) -> XP_015998622.1 Rousettus aegyptiacus fibronectin type-III domain-containing protein 3A (LOC107510024), mRNA.

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CloneID	ORo10365
Clone ID Related Accession (Same CDS sequence)	XM_016143136.1
Accession Version	XM_016143136.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3597bp) 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	2016-03-28
Organism	Rousettus aegyptiacus(Egyptian rousette)
Product	fibronectin type-III domain-containing protein 3A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015493988.1) and transcript sequence (GECF01002532.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rousettus aegyptiacus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 1353 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAGAAC ATCCACCACT CCTGGATACA TCTCAGATTC TAAGTAGTGA TATTTCTCTT 
CTGTCTGCCC CTATTGTAAG TGCAGATGGA ACACAACAGG TTATTCTAGT TCAAGTTAAC 
CCAGGGGAAG CATTTACAAT AAGAAGAGAA GATGGACAGT TTCAGTGCAT TACAGGTCCT 
GCTCAGGTTC CAATGATGTC TCCAAATGGT TCTGTGCCTC CTATTTACGT GCCTCCTGGA 
TATGCCCCAC AGGTTATCGA AGACAATGGT GTTCGAAGAG TTGTTGTGGT TCCTCAGGCA 
CCAGAGTTTC ATCCTAGTGG TCACACAGTC ATCCATCGTT CTCCACATCC TCCTCTGCCA 
GGTTTCATTC CTGTCCCAGC TATGATGCCC CCTCCACCGC GCCACATGTA CTCACCAGTG 
ACCGGAGCTG GAGACATGGC AACACAGTAT ATGCCACAGT ATCAGTCTTC ACAAGTATAT 
GGAGATGTAG ATGCTCATTC TACACATGGA AGGTCCAACT TTAGAGATGA AAGATCTAGT 
AAAACATATG AACGTTTGCA GAAAAAATTA AAGGATCGCC AAGGAACACA GAAAGATAAA 
ATCAGCAGTC CACCATCATC ACCCCAGAAA TGCCCTTCTC CCATAAGTGA ACATAATGGA 
CTTATAAAAG GGCAGAGTGC TAGTGGGGTA AACACAGGAT CAGGAAGAAA CAAGTCAGGG 
AAAGGGAAAG GTGGCCCACA AATTGATACA GAAATAGAAG AAAAAGATGA AGAAACTAAG 
GCTTTTGAAG CACTTCTTTC CACCATTGTC AAACCAGTGG CCTCGGACAT CCAGGCAAGG 
ACAGTAGTTC TTACTTGGTC ACCTCCTTCC AGCTTCATTA ACGGTGAAAC AGATGAGACT 
ACCGTACCAG AACTCTATAA TTATGAAGTT CTGGTCTCAA GTACTGGAAA AGATGGGAAA 
TATAAAAGTG TATATGCAGG AGAAGAAACA AGTGTCACTT TAAATGATCT CAAGCCAGCT 
ATGGATTACC ATGCAAAAGT ACAGGCAGAA TACAACTCTA TAAAGGGAAC TCCTTCAGAA 
GCTGAAAACT TTACCACCTT AAGCTGTGAA CCTGACATAC CTAATCCACC AAGAATAGCC 
AATCGGACTA AAAATTCACT CACTTTGCAA TGGAAGGCAC CTAGTGACAA TGGTTCTAAA 
ATCCAAAGCT TTATTTTAGA ATGGGATGAG GGAAAAGGAA ATGGAGAATT TTGTCAGTGT 
TACATGGGCT CACAGAAGCA ATTTAAAATT ACTAAACTAT CACCAGCAAT GGGTTGTAAA 
TTTAGACTAT CAGCCAAAAA TGACTATGGT ACAAGTGGTT TTAGTGAAGA AGTTTTATAT 
TACACCTCAG GCTGTGCCCC TTCTATGCCG GCAAGTCCTG TGTTAACTAA GGCTGGGGTT 
ACTTGGTTAT CCTTAAAATG GAGTAAGCCC TCAGGAACAC CATCAGATGA AGGAATTTCT 
TACATTTTAG AGATGGAGGA AGAAACTTCG GGATATGGTT TTAAGCCTAA ATATGATGGA 
GAAGATCTTG CTTACACAGT GAAAAATCTC AGGCGTAGTA CAAAGTATAA ATTTAAGGTT 
ATTGCTTACA ACTCAGAAGG TAAAAGTAAT CCAAGTGAAA TAGTAGAATT TACTACATGC 
CCTGATAAAC CAGGAGTACC TGTAAAGCCT TCAGTTAAAG GAAAGATACA TTCACACAGT 
TTTAAAATAA CTTGGGACCC ACCAAAAGAC AGTGGAGGGG CAGCCATCAA TAAATATGTA 
GTGGAGATGG CCGAAGGTTC TAATGGAAAT AAATGGGATA TGATATACAG TGGAGCTACT 
AGGGAACATC TTTGTGATCG ACTAAGTCCA GGCTGTTTTT ATCGTTTACG AGTTTACTGC 
ATCAGTGATG GAGGACAGAG TGCGGTATCT GAAACTTTAC TTGTGCAGAC TCCAGCTGTG 
CCTCCTGGCC CATGCCTCCC TCCCAGATTA CAGGGTAGAC CCAAAGCAAA AGAAATACAA 
TTACGATGGG GACCCCCTCT GGTCGATGGT GGATCACCCA TTTCCTGCTA TGGTGTCGAA 
ATGTCTCCTT TAGAAAGAGA TGAACCTAGA GAAGTTTACC AGGGTTCTGA AGTAGAATGT 
ACAGTGAGCA GCCTTCTTCC TGGAAAGACT TACAGCTTCA GACTGCGCGC AGCTAACAAA 
ATGGGGTTTG GACCATTTTC AGAAAAATAT GACATTACTA CAGCCCCTGG ACCACCAGAT 
CAATGCAAGC CCCCTCAAGT GACATGCAGA TCTGCAACTT GTGCACAAGT AAATTGGGAG 
GTCCCTTTGA GTAATGGAAC TGATGTCACT GAATATCGAT TGGAATGGGG AGGAGTTGAA 
GGAAGTATGC AGATATGCTA CTGTGGGCCT GGTCTCAGTT ATGAATTAAA AGGACTTTCA 
CCAGCAACTA CCTATTATTG CAGAGTTCAG GCTCTGAGTA TTGTGGGTGC AGGCCCTTTC 
AGTGAAGTAG TAGCCTGTGT GACACCACCA TCAGTTCCTG CGATTGTAAC CTGTCTTCAA 
GAAATAAGTG ATGATGATAT AGAAAATCCC CATTATTCAC CTTCTACATG CCTTGCAATA 
AGCTGGGAAA AGCCTTGTGA CCATGGTTCA GAAATCCTTG CCTACAGCAT AGACTTTGGA 
GATAAACAGC CCATGACAGT AGGAAAAGTT ACAAGCTATA TTATAAACAA TTTGCAACCA 
GATACAACAT ACAGAATACG AATTCAAGCT TTGAATAGCC TTGGAGCTGG TCCTTTCAGC 
CACATGATAA AATTAAAAAC TAAGCCCCTC CCTCCTGATC CACCTCGTCT GGAATGTGTT 
GCCTTCAGCC ACCAGAACCT TAAGCTGAAA TGGGGAGAAG GAACCCCAAA GACATTGTCA 
ACAGATTCTA TTCAGTACCA CCTTCAGATG GAGGATAAGA ATGGGAGGTT TGTATCCTTA 
TACAGAGGTC CATGTCATAC ATACAAAGTA CAAAGACTTA ATGAGTCAAC ATCTTATAAA 
TTCTGTATTC AAGCTTGTAA TGAAGCAGGG GAAGGTCCTC TCTCCCAAGA ATATATTTTC 
ACTACTCCAA AATCTGTCCC AGCTGCCTTG AAAGCCCCCA AAATAGAGAA AATAAATGAT 
CACATTTGTG AAATTACATG GGAATGTTTA CAGCCGATGA AAGGTGATCC AGTTATTTAC 
AGTCTTCAGG TTATGATGGG AAAAGATTCA GAATTCAAGC AGATTTACAA AGGTCCCGAC 
TCTTCATTCC GGTATTCAAG CCTTCAGCTG AACTGTGAAT ATCGTTTCCG TGTGTGTGCC 
ATTCGCCAGT GCCAAGACCC TGTGGGGCAT CAGGACCTAG TAGGTCCCTA CAGCACAACA 
GTGCTCTTCA TCTCTCAGAG GACTGAACCA CCAGCCAGCA CCAACAGAGA CACTGTGGAA 
AGCACAAGGA CCCGGCGAGC ACTTAGCGAT GAGCAGTGTG CAGCCGTCAT CCTTGTGTTA 
TTTGCTTTCT TTTCCATTTT GATTGCCTCT ATCATTCAGT ACTTTGTAAT CAAGTGA

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

RefSeq	XP_015998622.1
CDS	124..3720
Translation	MAEHPPLLDTSQILSSDISLLSAPIVSADGTQQVILVQVNPGEAFTIRREDGQFQCITGPAQVPMMSPNGSVPPIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPSGHTVIHRSPHPPLPGFIPVPAMMPPPPRHMYSPVTGAGDMATQYMPQYQSSQVYGDVDAHSTHGRSNFRDERSSKTYERLQKKLKDRQGTQKDKISSPPSSPQKCPSPISEHNGLIKGQSASGVNTGSGRNKSGKGKGGPQIDTEIEEKDEETKAFEALLSTIVKPVASDIQARTVVLTWSPPSSFINGETDETTVPELYNYEVLVSSTGKDGKYKSVYAGEETSVTLNDLKPAMDYHAKVQAEYNSIKGTPSEAENFTTLSCEPDIPNPPRIANRTKNSLTLQWKAPSDNGSKIQSFILEWDEGKGNGEFCQCYMGSQKQFKITKLSPAMGCKFRLSAKNDYGTSGFSEEVLYYTSGCAPSMPASPVLTKAGVTWLSLKWSKPSGTPSDEGISYILEMEEETSGYGFKPKYDGEDLAYTVKNLRRSTKYKFKVIAYNSEGKSNPSEIVEFTTCPDKPGVPVKPSVKGKIHSHSFKITWDPPKDSGGAAINKYVVEMAEGSNGNKWDMIYSGATREHLCDRLSPGCFYRLRVYCISDGGQSAVSETLLVQTPAVPPGPCLPPRLQGRPKAKEIQLRWGPPLVDGGSPISCYGVEMSPLERDEPREVYQGSEVECTVSSLLPGKTYSFRLRAANKMGFGPFSEKYDITTAPGPPDQCKPPQVTCRSATCAQVNWEVPLSNGTDVTEYRLEWGGVEGSMQICYCGPGLSYELKGLSPATTYYCRVQALSIVGAGPFSEVVACVTPPSVPAIVTCLQEISDDDIENPHYSPSTCLAISWEKPCDHGSEILAYSIDFGDKQPMTVGKVTSYIINNLQPDTTYRIRIQALNSLGAGPFSHMIKLKTKPLPPDPPRLECVAFSHQNLKLKWGEGTPKTLSTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLNESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPKIEKINDHICEITWECLQPMKGDPVIYSLQVMMGKDSEFKQIYKGPDSSFRYSSLQLNCEYRFRVCAIRQCQDPVGHQDLVGPYSTTVLFISQRTEPPASTNRDTVESTRTRRALSDEQCAAVILVLFAFFSILIASIIQYFVIK

Target ORF information:

RefSeq Version	XM_016143136.1
Organism	Rousettus aegyptiacus(Egyptian rousette)
Definition	Rousettus aegyptiacus fibronectin type-III domain-containing protein 3A (LOC107510024), mRNA.

Target ORF information:

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

XM_016143136.1

ORF Insert Sequence:

ATGGCAGAAC ATCCACCACT CCTGGATACA TCTCAGATTC TAAGTAGTGA TATTTCTCTT 
CTGTCTGCCC CTATTGTAAG TGCAGATGGA ACACAACAGG TTATTCTAGT TCAAGTTAAC 
CCAGGGGAAG CATTTACAAT AAGAAGAGAA GATGGACAGT TTCAGTGCAT TACAGGTCCT 
GCTCAGGTTC CAATGATGTC TCCAAATGGT TCTGTGCCTC CTATTTACGT GCCTCCTGGA 
TATGCCCCAC AGGTTATCGA AGACAATGGT GTTCGAAGAG TTGTTGTGGT TCCTCAGGCA 
CCAGAGTTTC ATCCTAGTGG TCACACAGTC ATCCATCGTT CTCCACATCC TCCTCTGCCA 
GGTTTCATTC CTGTCCCAGC TATGATGCCC CCTCCACCGC GCCACATGTA CTCACCAGTG 
ACCGGAGCTG GAGACATGGC AACACAGTAT ATGCCACAGT ATCAGTCTTC ACAAGTATAT 
GGAGATGTAG ATGCTCATTC TACACATGGA AGGTCCAACT TTAGAGATGA AAGATCTAGT 
AAAACATATG AACGTTTGCA GAAAAAATTA AAGGATCGCC AAGGAACACA GAAAGATAAA 
ATCAGCAGTC CACCATCATC ACCCCAGAAA TGCCCTTCTC CCATAAGTGA ACATAATGGA 
CTTATAAAAG GGCAGAGTGC TAGTGGGGTA AACACAGGAT CAGGAAGAAA CAAGTCAGGG 
AAAGGGAAAG GTGGCCCACA AATTGATACA GAAATAGAAG AAAAAGATGA AGAAACTAAG 
GCTTTTGAAG CACTTCTTTC CACCATTGTC AAACCAGTGG CCTCGGACAT CCAGGCAAGG 
ACAGTAGTTC TTACTTGGTC ACCTCCTTCC AGCTTCATTA ACGGTGAAAC AGATGAGACT 
ACCGTACCAG AACTCTATAA TTATGAAGTT CTGGTCTCAA GTACTGGAAA AGATGGGAAA 
TATAAAAGTG TATATGCAGG AGAAGAAACA AGTGTCACTT TAAATGATCT CAAGCCAGCT 
ATGGATTACC ATGCAAAAGT ACAGGCAGAA TACAACTCTA TAAAGGGAAC TCCTTCAGAA 
GCTGAAAACT TTACCACCTT AAGCTGTGAA CCTGACATAC CTAATCCACC AAGAATAGCC 
AATCGGACTA AAAATTCACT CACTTTGCAA TGGAAGGCAC CTAGTGACAA TGGTTCTAAA 
ATCCAAAGCT TTATTTTAGA ATGGGATGAG GGAAAAGGAA ATGGAGAATT TTGTCAGTGT 
TACATGGGCT CACAGAAGCA ATTTAAAATT ACTAAACTAT CACCAGCAAT GGGTTGTAAA 
TTTAGACTAT CAGCCAAAAA TGACTATGGT ACAAGTGGTT TTAGTGAAGA AGTTTTATAT 
TACACCTCAG GCTGTGCCCC TTCTATGCCG GCAAGTCCTG TGTTAACTAA GGCTGGGGTT 
ACTTGGTTAT CCTTAAAATG GAGTAAGCCC TCAGGAACAC CATCAGATGA AGGAATTTCT 
TACATTTTAG AGATGGAGGA AGAAACTTCG GGATATGGTT TTAAGCCTAA ATATGATGGA 
GAAGATCTTG CTTACACAGT GAAAAATCTC AGGCGTAGTA CAAAGTATAA ATTTAAGGTT 
ATTGCTTACA ACTCAGAAGG TAAAAGTAAT CCAAGTGAAA TAGTAGAATT TACTACATGC 
CCTGATAAAC CAGGAGTACC TGTAAAGCCT TCAGTTAAAG GAAAGATACA TTCACACAGT 
TTTAAAATAA CTTGGGACCC ACCAAAAGAC AGTGGAGGGG CAGCCATCAA TAAATATGTA 
GTGGAGATGG CCGAAGGTTC TAATGGAAAT AAATGGGATA TGATATACAG TGGAGCTACT 
AGGGAACATC TTTGTGATCG ACTAAGTCCA GGCTGTTTTT ATCGTTTACG AGTTTACTGC 
ATCAGTGATG GAGGACAGAG TGCGGTATCT GAAACTTTAC TTGTGCAGAC TCCAGCTGTG 
CCTCCTGGCC CATGCCTCCC TCCCAGATTA CAGGGTAGAC CCAAAGCAAA AGAAATACAA 
TTACGATGGG GACCCCCTCT GGTCGATGGT GGATCACCCA TTTCCTGCTA TGGTGTCGAA 
ATGTCTCCTT TAGAAAGAGA TGAACCTAGA GAAGTTTACC AGGGTTCTGA AGTAGAATGT 
ACAGTGAGCA GCCTTCTTCC TGGAAAGACT TACAGCTTCA GACTGCGCGC AGCTAACAAA 
ATGGGGTTTG GACCATTTTC AGAAAAATAT GACATTACTA CAGCCCCTGG ACCACCAGAT 
CAATGCAAGC CCCCTCAAGT GACATGCAGA TCTGCAACTT GTGCACAAGT AAATTGGGAG 
GTCCCTTTGA GTAATGGAAC TGATGTCACT GAATATCGAT TGGAATGGGG AGGAGTTGAA 
GGAAGTATGC AGATATGCTA CTGTGGGCCT GGTCTCAGTT ATGAATTAAA AGGACTTTCA 
CCAGCAACTA CCTATTATTG CAGAGTTCAG GCTCTGAGTA TTGTGGGTGC AGGCCCTTTC 
AGTGAAGTAG TAGCCTGTGT GACACCACCA TCAGTTCCTG CGATTGTAAC CTGTCTTCAA 
GAAATAAGTG ATGATGATAT AGAAAATCCC CATTATTCAC CTTCTACATG CCTTGCAATA 
AGCTGGGAAA AGCCTTGTGA CCATGGTTCA GAAATCCTTG CCTACAGCAT AGACTTTGGA 
GATAAACAGC CCATGACAGT AGGAAAAGTT ACAAGCTATA TTATAAACAA TTTGCAACCA 
GATACAACAT ACAGAATACG AATTCAAGCT TTGAATAGCC TTGGAGCTGG TCCTTTCAGC 
CACATGATAA AATTAAAAAC TAAGCCCCTC CCTCCTGATC CACCTCGTCT GGAATGTGTT 
GCCTTCAGCC ACCAGAACCT TAAGCTGAAA TGGGGAGAAG GAACCCCAAA GACATTGTCA 
ACAGATTCTA TTCAGTACCA CCTTCAGATG GAGGATAAGA ATGGGAGGTT TGTATCCTTA 
TACAGAGGTC CATGTCATAC ATACAAAGTA CAAAGACTTA ATGAGTCAAC ATCTTATAAA 
TTCTGTATTC AAGCTTGTAA TGAAGCAGGG GAAGGTCCTC TCTCCCAAGA ATATATTTTC 
ACTACTCCAA AATCTGTCCC AGCTGCCTTG AAAGCCCCCA AAATAGAGAA AATAAATGAT 
CACATTTGTG AAATTACATG GGAATGTTTA CAGCCGATGA AAGGTGATCC AGTTATTTAC 
AGTCTTCAGG TTATGATGGG AAAAGATTCA GAATTCAAGC AGATTTACAA AGGTCCCGAC 
TCTTCATTCC GGTATTCAAG CCTTCAGCTG AACTGTGAAT ATCGTTTCCG TGTGTGTGCC 
ATTCGCCAGT GCCAAGACCC TGTGGGGCAT CAGGACCTAG TAGGTCCCTA CAGCACAACA 
GTGCTCTTCA TCTCTCAGAG GACTGAACCA CCAGCCAGCA CCAACAGAGA CACTGTGGAA 
AGCACAAGGA CCCGGCGAGC ACTTAGCGAT GAGCAGTGTG CAGCCGTCAT CCTTGTGTTA 
TTTGCTTTCT TTTCCATTTT GATTGCCTCT ATCATTCAGT ACTTTGTAAT CAAGTGA