LOC102785209 cDNA ORF clone, Neolamprologus brichardi

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC102785209
Entrez Gene ID	102785209
Full Name	interferon-induced very large GTPase 1-like
Gene Type	protein-coding
Organism	Neolamprologus brichardi

mRNA and Protein(s)

mRNA	Protein	Name
XM_006792764.1	XP_006792827.1	interferon-induced very large GTPase 1-like

Pathways from BioSystems
Gene Ontology

The following LOC102785209 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102785209 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
ONe74213	XM_006792764.1 Latest version!	Neolamprologus brichardi interferon-induced very large GTPase 1-like (LOC102785209), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

LOC102785209 ( XM_006792764.1 ) cDNA ORF clone, Neolamprologus brichardi -> XP_006792827.1 Neolamprologus brichardi interferon-induced very large GTPase 1-like (LOC102785209), mRNA.

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CloneID	ONe74213
Clone ID Related Accession (Same CDS sequence)	XM_006792764.1
Accession Version	XM_006792764.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3381bp) 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	2014-02-09
Organism	Neolamprologus brichardi
Product	interferon-induced very large GTPase 1-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006272025.1) 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 :: Neolamprologus brichardi Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACACAG AAGACAAGAC TCCAGGCCTG TTAAACTTTA TCGCTAAACT TGGACTGGAA 
AAATTTTATC CCAACAAGCT CACTCTGCAA CTTCTATTAG AAATCAACAA AAGCAACACA 
TATGATCATC ATGTTCAGTC AGTGAAAGAT ATACCATGGT GCTTCTTTAG AAGATTGTTT 
CAAATCAATG CAGAGTGCAG GGACTGTACA CAGGTACCGA ATAATAACCA TGAAGAGGAT 
CTGTTTAATG ATCCATATGA CCTTGACTTT TGCCCCACTG ACGATAGGTT TAACCCAGCT 
GACATCATAG TAGCACTTTT CAAATGTGCT GACAGCTTCT TGCAACAGCA AATGACCCTC 
AAGATGTCAA TGTGCCAGTT TTCTGTCCCA CTGTTGATGC CTCATAGTAA AAATAGTCAG 
TGTAACCTGA TGCTTTGGGC TATGAGAGAC ACTGTCAAAG AATGGCTTCC ACATGATTCA 
TCTCAATCAA AACACTTTGC TGAAGACAAC ATTGTTCAAG CAGATATACC ACTCTATTCA 
TTTGTGAGGC TGAAAAACTG CAGCCTATCC AAGTCACAGC TTTTGAATAT GATTCTCAGC 
CGGGGTCAAC AGAATCACAA TTACTTCATT CACAGAGAAA TGGAAGGAGG AGCAATTGAA 
AAGAAAATTG CCAATGGACT GGTTGAGGTT TGCTGGTACC TGCCCAGTGG AAGAGAAAAT 
CTTGACATTT TTCCAGAGCC AGCTGCTTTC GCTAATTTGC GAGGAGACAT TTGTGGGTTG 
CTCACACAAT TCAATTTTCT TTACCAAGTA TCAACTGCTG TCTTTGTGTT CCTGGACAAA 
GTTGAAGAAA ATGAGCAGAA GATTTTGCTT TCTCTACCAA ATGTGAAAAC AAAACTGTTC 
TTGGTAGTTG ATGTCAAAGA CAGGAATGCA AAAGAAGACA TATTGTCTGT GAAGGCAACA 
CAAGAAAAAT TGGATTTACC AAAATCCAGC ATCAAAATTA AACGCTCAAA CATGAACGTT 
GTCGAGTTTT CAAAAAATAT TTGTGCAGCT ATTAAGACCT CAAATGTAAC CACAATGAAA 
ATTATCAACA TGTTTGACAA AGCTGTTGAA CTTGGTTTGT CTGTGGATGA ATGCAGAAGT 
GAAAACCAAG AAAAGGCAGC TGAAGAGATT ATGAGGGGCA TTGGAGTCCG CAATATATCC 
GACTACAAGA AACAAAAACT TCCTCTGCAG GGAGATAACT GGAAGAGGTT GTCACAGTTG 
GAAAAAGAAC AGTGTAGATT AAAAGATTTT GGTGACTCAG GACTGGAAGA GTACAAATGT 
CAGCTCCAGC AAGAAGTGAA GCAAATTAAG AAGGTGCAAA GTACCTACAA ATTGTCCAAA 
GCAATGAGAA CTTTTATTGC TAACTTATCT ACGAACAACA AGGAAAAACA AAACTATTTC 
CTAAAATGGA TGAAACTGAA GCTTGATACA AAATCACGGG AAAAACTCTC CGCATTGAGA 
AAGAAATTTA AAGAAGAGTG TAAGAAGAAC TCAAAACTCA TTGCAGAGTT GGATCAAACT 
TTGCTGGAGA GCTCCTTAGG AATAGAGCAT TACATGAGAG AGATGGGGCT GATCTATGAG 
TTTTCTTTGC ACTCACAAAA AACTGTTGAT GAAATAGTTG CTCTGCCAAG TGTTGTAGCT 
AAAATGCTGC TTGATGGATA TCCTTTAGAA CTCTTGGATG GAGATGCTTC TAACATTCCA 
GAGAGATGGG TGGCAGATGT GCTGATGGAG CTTCATAAGA AGGTTGGAGA GAAGAGCAGA 
CTGTTGGTAG TGTCTGTGTT GGGTGTTCAA AGTACAGGGA AATCAACACT CCTCAACACC 
ATGTTTGGTG TGCAGTTTCC TGTCAGCAGT GGCAGATGCA CAAGAGGGGC TTATATGGTC 
TTCCTCAAAG TTGGTGAAGA TTTAAAAACT GAGTTGAAAT ATGACTTCAT AGTTCTCATT 
GATACAGAAG GTCTAAAATC TCCTGAGATG GCACAACTTG AAGACAGTTA TGAGCACGAC 
AACCAGCTGG CAACCTTTGT CATTGGTCTA AGTGATGTAA CCATTATCAA CATTGCAATG 
GAGAACGCAA CTGAAATGAA AGATGTCCTA CAAATCACAG TGCATGCATT TTTGAGGATG 
AGGCAAATTG GTAAAAAGCC AGTTTGTCAT TTTGTACACC AAAATGTTGC TGGTGTTTCA 
GCTCATTCCA AGTGCATGAC AGAGAGGAAA CATCTCTTGG ACCAGCTAAA TAAAATGACC 
AGAATTGCAG CTGAAATGGA AAAACAACCT TCTATTAAGG CATTCACTGA TGTGCTGGAC 
TACGACATTG AAAAAAACCA CTGGAACATC CCTGGACTCT GGCATGGAAC CCCACCAATG 
GCACCAGTGA ACACAGGTTA CAGTGAAGCT GTAGCCGATT TCAAGAAAAC TCTTTTGGAA 
ATAATGAAAG ATGACAGAGA TAGAAAAGCC ACACAGATCC CAGATTTTCT CAAATGGATG 
AAAAGTCTGT GGAGAGCAGT GAAATATGAA AACTTTATCT TTAGTTTCAG AAACACTCTT 
GTGGCTCATG CTTATGACAA CCTTTGCAAA GAGTTTAGTC AATGGGAATG GGAGTTCAGA 
AAACACATTT TCTCCTGGCA GACAGAAGCA GAGCTAGAAA TCTTAAATAC TGACAATGAA 
TCAGAAGTTA ACACTTGGGA AAAAGTGGTC CATTCCAAAA AATCTCAACT GTCTGACAAA 
ATAACAGACC AAAAACAGCT AATGATGGAG AAACTAAGTC ACTATTATAA AAGGAAAGAC 
AGAGATGTAA ATTTGATAGA GAAATACAAG AACGATTTCT CTAAAAGTAT TATTGGCCTT 
GCCAAAGAAA TTCAACAGTC TGTCTGCATT AAACTTGATT GTGCCCTTCA GCTAAAGATC 
AGCAAAAAGA AGGCTCAAGA TATACAGAGA AAATACAGAG ATGTGATTGA AGAGCAGGTC 
ATGCAGCTCT TGGGTAACTA TAAAAAATCA TCTCTGTCAG ATAAACAGCT GAAAGATGTT 
TTTGAAAAGA TGTGGACAGA CGCAACAATA AATTGCCCTG TGAGGCTGGA GGGAATGAAC 
ACGCTGAGCA TCATGCAGCT GTACATCGGC CACAAGGAAT GGCATCCTTA CAAAGACTAC 
AAAGCGTATT ATCCAGAGTG GCACATTCCA GCAGATCCTT CTGTAGAAGC ATCGGACTAT 
TGGAAGTATG TTTTAGTGAA ATACAATGAA CAGTTTGCTG AAAAATATGA CGCCAAGCCA 
GCTGATGTCC CACAGGCCTG GAGAAGCATC ACAAAGGAAC AAGCACTGAA AGGCTTAACA 
GAAGCATTCA ACATGAAGTG A

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

RefSeq	XP_006792827.1
CDS	1..3381
Translation	MDTEDKTPGLLNFIAKLGLEKFYPNKLTLQLLLEINKSNTYDHHVQSVKDIPWCFFRRLFQINAECRDCTQVPNNNHEEDLFNDPYDLDFCPTDDRFNPADIIVALFKCADSFLQQQMTLKMSMCQFSVPLLMPHSKNSQCNLMLWAMRDTVKEWLPHDSSQSKHFAEDNIVQADIPLYSFVRLKNCSLSKSQLLNMILSRGQQNHNYFIHREMEGGAIEKKIANGLVEVCWYLPSGRENLDIFPEPAAFANLRGDICGLLTQFNFLYQVSTAVFVFLDKVEENEQKILLSLPNVKTKLFLVVDVKDRNAKEDILSVKATQEKLDLPKSSIKIKRSNMNVVEFSKNICAAIKTSNVTTMKIINMFDKAVELGLSVDECRSENQEKAAEEIMRGIGVRNISDYKKQKLPLQGDNWKRLSQLEKEQCRLKDFGDSGLEEYKCQLQQEVKQIKKVQSTYKLSKAMRTFIANLSTNNKEKQNYFLKWMKLKLDTKSREKLSALRKKFKEECKKNSKLIAELDQTLLESSLGIEHYMREMGLIYEFSLHSQKTVDEIVALPSVVAKMLLDGYPLELLDGDASNIPERWVADVLMELHKKVGEKSRLLVVSVLGVQSTGKSTLLNTMFGVQFPVSSGRCTRGAYMVFLKVGEDLKTELKYDFIVLIDTEGLKSPEMAQLEDSYEHDNQLATFVIGLSDVTIINIAMENATEMKDVLQITVHAFLRMRQIGKKPVCHFVHQNVAGVSAHSKCMTERKHLLDQLNKMTRIAAEMEKQPSIKAFTDVLDYDIEKNHWNIPGLWHGTPPMAPVNTGYSEAVADFKKTLLEIMKDDRDRKATQIPDFLKWMKSLWRAVKYENFIFSFRNTLVAHAYDNLCKEFSQWEWEFRKHIFSWQTEAELEILNTDNESEVNTWEKVVHSKKSQLSDKITDQKQLMMEKLSHYYKRKDRDVNLIEKYKNDFSKSIIGLAKEIQQSVCIKLDCALQLKISKKKAQDIQRKYRDVIEEQVMQLLGNYKKSSLSDKQLKDVFEKMWTDATINCPVRLEGMNTLSIMQLYIGHKEWHPYKDYKAYYPEWHIPADPSVEASDYWKYVLVKYNEQFAEKYDAKPADVPQAWRSITKEQALKGLTEAFNMK

Target ORF information:

RefSeq Version	XM_006792764.1
Organism	Neolamprologus brichardi
Definition	Neolamprologus brichardi interferon-induced very large GTPase 1-like (LOC102785209), mRNA.

Target ORF information:

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

XM_006792764.1

ORF Insert Sequence:

ATGGACACAG AAGACAAGAC TCCAGGCCTG TTAAACTTTA TCGCTAAACT TGGACTGGAA 
AAATTTTATC CCAACAAGCT CACTCTGCAA CTTCTATTAG AAATCAACAA AAGCAACACA 
TATGATCATC ATGTTCAGTC AGTGAAAGAT ATACCATGGT GCTTCTTTAG AAGATTGTTT 
CAAATCAATG CAGAGTGCAG GGACTGTACA CAGGTACCGA ATAATAACCA TGAAGAGGAT 
CTGTTTAATG ATCCATATGA CCTTGACTTT TGCCCCACTG ACGATAGGTT TAACCCAGCT 
GACATCATAG TAGCACTTTT CAAATGTGCT GACAGCTTCT TGCAACAGCA AATGACCCTC 
AAGATGTCAA TGTGCCAGTT TTCTGTCCCA CTGTTGATGC CTCATAGTAA AAATAGTCAG 
TGTAACCTGA TGCTTTGGGC TATGAGAGAC ACTGTCAAAG AATGGCTTCC ACATGATTCA 
TCTCAATCAA AACACTTTGC TGAAGACAAC ATTGTTCAAG CAGATATACC ACTCTATTCA 
TTTGTGAGGC TGAAAAACTG CAGCCTATCC AAGTCACAGC TTTTGAATAT GATTCTCAGC 
CGGGGTCAAC AGAATCACAA TTACTTCATT CACAGAGAAA TGGAAGGAGG AGCAATTGAA 
AAGAAAATTG CCAATGGACT GGTTGAGGTT TGCTGGTACC TGCCCAGTGG AAGAGAAAAT 
CTTGACATTT TTCCAGAGCC AGCTGCTTTC GCTAATTTGC GAGGAGACAT TTGTGGGTTG 
CTCACACAAT TCAATTTTCT TTACCAAGTA TCAACTGCTG TCTTTGTGTT CCTGGACAAA 
GTTGAAGAAA ATGAGCAGAA GATTTTGCTT TCTCTACCAA ATGTGAAAAC AAAACTGTTC 
TTGGTAGTTG ATGTCAAAGA CAGGAATGCA AAAGAAGACA TATTGTCTGT GAAGGCAACA 
CAAGAAAAAT TGGATTTACC AAAATCCAGC ATCAAAATTA AACGCTCAAA CATGAACGTT 
GTCGAGTTTT CAAAAAATAT TTGTGCAGCT ATTAAGACCT CAAATGTAAC CACAATGAAA 
ATTATCAACA TGTTTGACAA AGCTGTTGAA CTTGGTTTGT CTGTGGATGA ATGCAGAAGT 
GAAAACCAAG AAAAGGCAGC TGAAGAGATT ATGAGGGGCA TTGGAGTCCG CAATATATCC 
GACTACAAGA AACAAAAACT TCCTCTGCAG GGAGATAACT GGAAGAGGTT GTCACAGTTG 
GAAAAAGAAC AGTGTAGATT AAAAGATTTT GGTGACTCAG GACTGGAAGA GTACAAATGT 
CAGCTCCAGC AAGAAGTGAA GCAAATTAAG AAGGTGCAAA GTACCTACAA ATTGTCCAAA 
GCAATGAGAA CTTTTATTGC TAACTTATCT ACGAACAACA AGGAAAAACA AAACTATTTC 
CTAAAATGGA TGAAACTGAA GCTTGATACA AAATCACGGG AAAAACTCTC CGCATTGAGA 
AAGAAATTTA AAGAAGAGTG TAAGAAGAAC TCAAAACTCA TTGCAGAGTT GGATCAAACT 
TTGCTGGAGA GCTCCTTAGG AATAGAGCAT TACATGAGAG AGATGGGGCT GATCTATGAG 
TTTTCTTTGC ACTCACAAAA AACTGTTGAT GAAATAGTTG CTCTGCCAAG TGTTGTAGCT 
AAAATGCTGC TTGATGGATA TCCTTTAGAA CTCTTGGATG GAGATGCTTC TAACATTCCA 
GAGAGATGGG TGGCAGATGT GCTGATGGAG CTTCATAAGA AGGTTGGAGA GAAGAGCAGA 
CTGTTGGTAG TGTCTGTGTT GGGTGTTCAA AGTACAGGGA AATCAACACT CCTCAACACC 
ATGTTTGGTG TGCAGTTTCC TGTCAGCAGT GGCAGATGCA CAAGAGGGGC TTATATGGTC 
TTCCTCAAAG TTGGTGAAGA TTTAAAAACT GAGTTGAAAT ATGACTTCAT AGTTCTCATT 
GATACAGAAG GTCTAAAATC TCCTGAGATG GCACAACTTG AAGACAGTTA TGAGCACGAC 
AACCAGCTGG CAACCTTTGT CATTGGTCTA AGTGATGTAA CCATTATCAA CATTGCAATG 
GAGAACGCAA CTGAAATGAA AGATGTCCTA CAAATCACAG TGCATGCATT TTTGAGGATG 
AGGCAAATTG GTAAAAAGCC AGTTTGTCAT TTTGTACACC AAAATGTTGC TGGTGTTTCA 
GCTCATTCCA AGTGCATGAC AGAGAGGAAA CATCTCTTGG ACCAGCTAAA TAAAATGACC 
AGAATTGCAG CTGAAATGGA AAAACAACCT TCTATTAAGG CATTCACTGA TGTGCTGGAC 
TACGACATTG AAAAAAACCA CTGGAACATC CCTGGACTCT GGCATGGAAC CCCACCAATG 
GCACCAGTGA ACACAGGTTA CAGTGAAGCT GTAGCCGATT TCAAGAAAAC TCTTTTGGAA 
ATAATGAAAG ATGACAGAGA TAGAAAAGCC ACACAGATCC CAGATTTTCT CAAATGGATG 
AAAAGTCTGT GGAGAGCAGT GAAATATGAA AACTTTATCT TTAGTTTCAG AAACACTCTT 
GTGGCTCATG CTTATGACAA CCTTTGCAAA GAGTTTAGTC AATGGGAATG GGAGTTCAGA 
AAACACATTT TCTCCTGGCA GACAGAAGCA GAGCTAGAAA TCTTAAATAC TGACAATGAA 
TCAGAAGTTA ACACTTGGGA AAAAGTGGTC CATTCCAAAA AATCTCAACT GTCTGACAAA 
ATAACAGACC AAAAACAGCT AATGATGGAG AAACTAAGTC ACTATTATAA AAGGAAAGAC 
AGAGATGTAA ATTTGATAGA GAAATACAAG AACGATTTCT CTAAAAGTAT TATTGGCCTT 
GCCAAAGAAA TTCAACAGTC TGTCTGCATT AAACTTGATT GTGCCCTTCA GCTAAAGATC 
AGCAAAAAGA AGGCTCAAGA TATACAGAGA AAATACAGAG ATGTGATTGA AGAGCAGGTC 
ATGCAGCTCT TGGGTAACTA TAAAAAATCA TCTCTGTCAG ATAAACAGCT GAAAGATGTT 
TTTGAAAAGA TGTGGACAGA CGCAACAATA AATTGCCCTG TGAGGCTGGA GGGAATGAAC 
ACGCTGAGCA TCATGCAGCT GTACATCGGC CACAAGGAAT GGCATCCTTA CAAAGACTAC 
AAAGCGTATT ATCCAGAGTG GCACATTCCA GCAGATCCTT CTGTAGAAGC ATCGGACTAT 
TGGAAGTATG TTTTAGTGAA ATACAATGAA CAGTTTGCTG AAAAATATGA CGCCAAGCCA 
GCTGATGTCC CACAGGCCTG GAGAAGCATC ACAAAGGAAC AAGCACTGAA AGGCTTAACA 
GAAGCATTCA ACATGAAGTG A