Gene Symbol
Arhgap45
Entrez Gene ID
314618
Full Name
Rho GTPase activating protein 45
Synonyms
Hmha1,RGD1308662
General protein information
Preferred NamesRho GTPase activating protein 45
Namesminor histocompatibility protein HA-1 histocompatibility (minor) HA-1
Gene Type
protein-coding
Organism
Rattus norvegicus(Norway rat)
Genome
Chromosome: 7
Map Location: 7q11
mRNA and Protein(s)
mRNA
Protein
Name
XM_017594813.1
XP_017450302.1
minor histocompatibility protein HA-1 isoform X1
NM_001108067.1
NP_001101537.1
minor histocompatibility protein HA-1
Homo sapiens (human)
HMHA1
NP_036424.2
Gallus gallus (chicken)
HMHA1
NP_001026108.1
HMHA1
XP_001117237.2
Mus musculus (house mouse)
Hmha1
NP_001136173.1
Xenopus tropicalis (tropical clawed frog)
hmha1
NP_001107971.1
Pan troglodytes (chimpanzee)
HMHA1
XP_003953357.1
Canis lupus familiaris (dog)
HMHA1
XP_005633213.1
Rattus norvegicus (Norway rat)
Hmha1
NP_001101537.1
Danio rerio (zebrafish)
LOC556955
XP_001919378.4
Danio rerio (zebrafish)
hmha1b
XP_683585.5
Bos taurus (cattle)
HMHA1
NP_001192670.1
Related articles in PubMed
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following Arhgap45 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgap45 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
ORa61987
Clone ID Related Accession (Same CDS sequence)
XM_017594813.1
Accession Version
XM_017594813.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 3003bp)
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
2016-07-25
Organism
Rattus norvegicus(Norway rat)
Product
minor histocompatibility protein HA-1 isoform X1
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005106.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Rattus norvegicus Annotation Release 106
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 ATGTGTGTCT GTGGGATGCT GCACCCAGCG CTGGACCGCG ACCTCCAGCG CTGCCAGACT CGGGCCCCAG ATCTCCTTGA GGCCCGCCGG CCCCTGGCTC ATGAATGCCT GGGTGAAGCT CTGCGAGTCA TGCGTCAGGT CATCTCCAAA TACCCACTCC TGAACACCGT GGAGACACTC ACAGCTGCTG GTACACTCAT TGCCAAGGTC AAAGCCTTTC ATTATGAATG CAACAATGAA TCAGATAAGA GGGAGTTTGA GAAGGCACTG GAGACCATTG CTGTGTCCTT CAGCTGCACT GTGTCGGAGT TCCTTTTGGG TGAAGTGGAC AGCAGTACAC TCCTGGCTGT GCCTCCGGGG GACCCTAGCC AGTTGGTGGA GAACCTTTAT GGGTCAGGCA GTGAGGGGCC CCCACACAGC GTGGAGGATT GTGAAGAAGG TTGCCTGCCC CCCGAGGAGG TGGACATGCT TCTCCAGCGC TGCGAGGGAG GTGTGGACGC CGCGCTGCAG TATGCAAAAG ACATGGCCAG GTACATGAAG GACCTCATCG GCTACCTGGA GAAGAGGACC ACCCTGGAGA TGGAATTCGC CAAAGGGCTG CAGAAGGTCG TCCATAACTG CAGACAGAAC GTCACTCATG CGCCCCACAT GCCTCTCTTA TCCATCTACT CACTGGCCCT GGAACAAGAT CTGGAGTTTG GCCACGGCAT GGTGCAGGCA GTGGGCACGC TGCAGACCCA GACCTTCATG CAGCCCCTGA CCCTGCGGCG GTTGGAGCAT GAGAGACGCA GGAAGGAGAT CAAAGAATCC TGGCATCGTG CACAGAGGAA GCTGCAAGAG GCAGAGGCCA ACCTGCGCAA GGCTAAACAG GGCTACAAAC AACGTTGTGA AGACCACGAC AAGGCCCGGC TCCAGGTGGC CAAGGCTGAG GAGGAACAAC AGGGCACAGG GCCAGGAGCA GGGACTGCAG CCTCCAAGGC CCTGGACAAG AGGCGGAGGC TGGAGGAAGA GGCCAAAAAC AAGGCCGAGG AGGCCATGGC CACTTACCGC ACATGCGTGG CAGATGCAAA GACACAGAAG CAAGAGCTGG AGGACACAAA GGTGACTGCG CTGCGACAGA TCCAGGAGGT CATCAGACAG AGTGATCAGA CCATTAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACA GCGCCGCTGC CTGTGAACTT CCAGATGCTG TGCGAGAGCA GCAAACTATA TGACCCGGGC CAACAGTACG CATCTCACGT GCGTCAGCTG CAGCGAGGCG AGGAGCCGGA TGTGCGCTAC GACTTTGAGC CTTATGTCTC CACCAATGCC TGGTCCCCAA TCATGCGAAC ACGGAAGGGC AGCTTCAATC CTGGTGACGC TTCAGGACCC GAAGCTGCCG GCAGTCCCCC GGAGGAAGGT GGCACGTCTG AGGGGGCTCC CAACAAGGAC CACAGGGGGG GACGAGGTCA TCAGGTACAT AAGTCCTGGC CTATCTCCAT CTCAGACACC GAAGTCAGCC TGGACGTCAG CTCAGGGGAC TTGAAGAAGT TCGATCGAAC CTCGTCCAGC GGGACCATGT CATCCAATGA GGAGCTGGTA GATCAGGAAG CTGGCTTGGT CGCCTCCGCT TTTGATTCAG CTGACCTCAA TGGCATGGAT CCCGAGTTAC CTGTTGCCAT GCCCAGTGGA CCCTTCCGCC ATGTGGGATT GTCCAAGGCA GCCCGCACAC ACCGACTTCG CAAGCTGCGA ACGCCGGCCA AGTGCAGAGA GTGTAACAGC TACGTGTACT TCCAAGGGGC CGAATGTGAA GAGTGCTGTC TGGCTTGTCA CAAAAAGTGT TTGGAGACCC TGGCTATCCA GTGTGGTCAC AAGAAGCTTC AGGGCCGCCT GCAGCTGTTT GGTCAAGACT TCAGCCAGGC AGCCCACAGC ACCCCTGATG GGGTGCCCTT CATTATTAAA AAGTGTGTCT GTGAGATTGA GCGGCGGGCA CTGCACACTA AGGGGATCTA CCGGGTCAAC GGCGTGAAAA CGCGTGTGGA GAAGCTGTGC CAGGCCTTTG AGAATGGCAA AGAGCTGGTG GAGTTGTCAC AGGCCTCACC GCACGACATA AGCAATGTCC TGAAGCTGTA CCTACGGCAG CTGCCGGAGC CCCTCATCTC TTTTCGCTTC TACCATGAGC TGGTGGGATT AGCTAAGGAC AGCCTAAAGG CAGAGGCCGA AGCCAAGGCA GCAAGCCGGG GCCGGCAGGA CGGGTCCGAG AGTGAGGCTG CGACCTTGGC CATGGTGGGC CGCCTGCGAG AGCTCATGCG GGACCTGCCA GCCGAAAACC GGGCCACACT CTTATACCTG CTGAGGCACC TGCGAAGGAT CGTGGAAATG GAGCAAGATA ACAAGATGAC CCCCGGGAAC CTGGGCATCG TTTTCGGGCC CACACTGCTG CGGCCTCGGC CCACAGACGC CACCGTGTCC CTCTCTTCTC TGGTGGACTA CCCCCACCAG GCCCGTGTCA TTGAGACTCT GATTGTCCAC TATGGCCTGG TCTTTGAGGA GGAGCCAGAA GAAGCAGCTG GCAGCCAAGA GGGGGCGTCC GCCCAGTGTG CCCAGCTGGA GACTGCTGAG GGCATTGTCT TCCCCCAGCA GGAGGAGGCG GACGATGGAA ACCGAGAATC CCAGGTGGCA TCCAATGACT CAGACTCAGA GCTGGAAGAG GCTTCTGACC TCCTTTCGTC CTCGGACGCC AGCGCCCTGC ACCGCCTCAG TTTCCTGGAG CAGACCGAGG CAGGCCTGGA GGAAGGTCCC CAGAGCCACA GTGGCAGTGA GGAACAGCTG GAGAGTGAGG ATGCAGCCCC AGGCCATCAG CTGTGTTCCT TCAACACCAA CCAGTCCAAC AACACCACAC AAGCCTCTCT GCCCACCATG CGACTCCGAG ATGGGCAGAT CACAGGTGGC AGCGGTCGGA AGCGGCAGCC ACAGTTTGTC TGA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_017450302.1
CDS 1968..4970
Translation
Target ORF information:
RefSeq Version XM_017594813.1
Organism Rattus norvegicus(Norway rat)
Definition Rattus norvegicus Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_017594813.1
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 ATGTGTGTCT GTGGGATGCT GCACCCAGCG CTGGACCGCG ACCTCCAGCG CTGCCAGACT CGGGCCCCAG ATCTCCTTGA GGCCCGCCGG CCCCTGGCTC ATGAATGCCT GGGTGAAGCT CTGCGAGTCA TGCGTCAGGT CATCTCCAAA TACCCACTCC TGAACACCGT GGAGACACTC ACAGCTGCTG GTACACTCAT TGCCAAGGTC AAAGCCTTTC ATTATGAATG CAACAATGAA TCAGATAAGA GGGAGTTTGA GAAGGCACTG GAGACCATTG CTGTGTCCTT CAGCTGCACT GTGTCGGAGT TCCTTTTGGG TGAAGTGGAC AGCAGTACAC TCCTGGCTGT GCCTCCGGGG GACCCTAGCC AGTTGGTGGA GAACCTTTAT GGGTCAGGCA GTGAGGGGCC CCCACACAGC GTGGAGGATT GTGAAGAAGG TTGCCTGCCC CCCGAGGAGG TGGACATGCT TCTCCAGCGC TGCGAGGGAG GTGTGGACGC CGCGCTGCAG TATGCAAAAG ACATGGCCAG GTACATGAAG GACCTCATCG GCTACCTGGA GAAGAGGACC ACCCTGGAGA TGGAATTCGC CAAAGGGCTG CAGAAGGTCG TCCATAACTG CAGACAGAAC GTCACTCATG CGCCCCACAT GCCTCTCTTA TCCATCTACT CACTGGCCCT GGAACAAGAT CTGGAGTTTG GCCACGGCAT GGTGCAGGCA GTGGGCACGC TGCAGACCCA GACCTTCATG CAGCCCCTGA CCCTGCGGCG GTTGGAGCAT GAGAGACGCA GGAAGGAGAT CAAAGAATCC TGGCATCGTG CACAGAGGAA GCTGCAAGAG GCAGAGGCCA ACCTGCGCAA GGCTAAACAG GGCTACAAAC AACGTTGTGA AGACCACGAC AAGGCCCGGC TCCAGGTGGC CAAGGCTGAG GAGGAACAAC AGGGCACAGG GCCAGGAGCA GGGACTGCAG CCTCCAAGGC CCTGGACAAG AGGCGGAGGC TGGAGGAAGA GGCCAAAAAC AAGGCCGAGG AGGCCATGGC CACTTACCGC ACATGCGTGG CAGATGCAAA GACACAGAAG CAAGAGCTGG AGGACACAAA GGTGACTGCG CTGCGACAGA TCCAGGAGGT CATCAGACAG AGTGATCAGA CCATTAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACA GCGCCGCTGC CTGTGAACTT CCAGATGCTG TGCGAGAGCA GCAAACTATA TGACCCGGGC CAACAGTACG CATCTCACGT GCGTCAGCTG CAGCGAGGCG AGGAGCCGGA TGTGCGCTAC GACTTTGAGC CTTATGTCTC CACCAATGCC TGGTCCCCAA TCATGCGAAC ACGGAAGGGC AGCTTCAATC CTGGTGACGC TTCAGGACCC GAAGCTGCCG GCAGTCCCCC GGAGGAAGGT GGCACGTCTG AGGGGGCTCC CAACAAGGAC CACAGGGGGG GACGAGGTCA TCAGGTACAT AAGTCCTGGC CTATCTCCAT CTCAGACACC GAAGTCAGCC TGGACGTCAG CTCAGGGGAC TTGAAGAAGT TCGATCGAAC CTCGTCCAGC GGGACCATGT CATCCAATGA GGAGCTGGTA GATCAGGAAG CTGGCTTGGT CGCCTCCGCT TTTGATTCAG CTGACCTCAA TGGCATGGAT CCCGAGTTAC CTGTTGCCAT GCCCAGTGGA CCCTTCCGCC ATGTGGGATT GTCCAAGGCA GCCCGCACAC ACCGACTTCG CAAGCTGCGA ACGCCGGCCA AGTGCAGAGA GTGTAACAGC TACGTGTACT TCCAAGGGGC CGAATGTGAA GAGTGCTGTC TGGCTTGTCA CAAAAAGTGT TTGGAGACCC TGGCTATCCA GTGTGGTCAC AAGAAGCTTC AGGGCCGCCT GCAGCTGTTT GGTCAAGACT TCAGCCAGGC AGCCCACAGC ACCCCTGATG GGGTGCCCTT CATTATTAAA AAGTGTGTCT GTGAGATTGA GCGGCGGGCA CTGCACACTA AGGGGATCTA CCGGGTCAAC GGCGTGAAAA CGCGTGTGGA GAAGCTGTGC CAGGCCTTTG AGAATGGCAA AGAGCTGGTG GAGTTGTCAC AGGCCTCACC GCACGACATA AGCAATGTCC TGAAGCTGTA CCTACGGCAG CTGCCGGAGC CCCTCATCTC TTTTCGCTTC TACCATGAGC TGGTGGGATT AGCTAAGGAC AGCCTAAAGG CAGAGGCCGA AGCCAAGGCA GCAAGCCGGG GCCGGCAGGA CGGGTCCGAG AGTGAGGCTG CGACCTTGGC CATGGTGGGC CGCCTGCGAG AGCTCATGCG GGACCTGCCA GCCGAAAACC GGGCCACACT CTTATACCTG CTGAGGCACC TGCGAAGGAT CGTGGAAATG GAGCAAGATA ACAAGATGAC CCCCGGGAAC CTGGGCATCG TTTTCGGGCC CACACTGCTG CGGCCTCGGC CCACAGACGC CACCGTGTCC CTCTCTTCTC TGGTGGACTA CCCCCACCAG GCCCGTGTCA TTGAGACTCT GATTGTCCAC TATGGCCTGG TCTTTGAGGA GGAGCCAGAA GAAGCAGCTG GCAGCCAAGA GGGGGCGTCC GCCCAGTGTG CCCAGCTGGA GACTGCTGAG GGCATTGTCT TCCCCCAGCA GGAGGAGGCG GACGATGGAA ACCGAGAATC CCAGGTGGCA TCCAATGACT CAGACTCAGA GCTGGAAGAG GCTTCTGACC TCCTTTCGTC CTCGGACGCC AGCGCCCTGC ACCGCCTCAG TTTCCTGGAG CAGACCGAGG CAGGCCTGGA GGAAGGTCCC CAGAGCCACA GTGGCAGTGA GGAACAGCTG GAGAGTGAGG ATGCAGCCCC AGGCCATCAG CTGTGTTCCT TCAACACCAA CCAGTCCAAC AACACCACAC AAGCCTCTCT GCCCACCATG CGACTCCGAG ATGGGCAGAT CACAGGTGGC AGCGGTCGGA AGCGGCAGCC ACAGTTTGTC TGA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
ORa06607
Clone ID Related Accession (Same CDS sequence)
NM_001108067.1
Accession Version
NM_001108067.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 3351bp)
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
2017-10-01
Organism
Rattus norvegicus(Norway rat)
Product
minor histocompatibility protein HA-1
Comment
Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH474029.1. On or before Oct 4, 2007 this sequence version replaced XM_234898.4, XM_001073188.1.
##Evidence-Data-START##
RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350]
##Evidence-Data-END##
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 ATGTTCTCTC GGAAGAAGCG AGAACTTATG AAAACTCCCT CTATTTCCAA AAAGAACCGC GCGGGGAGCC CCAACCCGCA GTCCTCCTCA GGGGAGCTGC CTCGGAAAGA CTGTACAGAA ACTCCTAGCC TGGAGCCACC AGCCATGTCC CTGTCCACGG TGGCCAAGGG CACAGGAACA CTCAAAAGGC CAACCAGCCT GAGCCGCCAT GCCAGCGCTG CAGGCTTCCC ACTCTCGGGC ACTGCCACAC GGACTCTGGG CCGTGGATAT CGAAGCCCCC TCTCTGCTGC CAGCCCCGCA GAGCTACCCA CTGAGGGACC TTTCCCTGAC GGTGTAGAAG ACATCTCAAC CCTGCTGGCT GATGTTGCCC GCTTTGCTGA GGGCTTGGAG AAGCTCAAGG AGTTTGTGCT GCGGGATGAT CTCCTTGAGG CCCGCCGGCC CCTGGCTCAT GAATGCCTGG GTGAAGCTCT GCGAGTCATG CGTCAGGTCA TCTCCAAATA CCCACTCCTG AACACCGTGG AGACACTCAC AGCTGCTGGT ACACTCATTG CCAAGGTCAA AGCCTTTCAT TATGAATGCA ACAATGAATC AGATAAGAGG GAGTTTGAGA AGGCACTGGA GACCATTGCT GTGTCCTTCA GCTGCACTGT GTCGGAGTTC CTTTTGGGTG AAGTGGACAG CAGTACACTC CTGGCTGTGC CTCCGGGGGA CCCTAGCCAG TTGGTGGAGA ACCTTTATGG GTCAGGCAGT GAGGGGCCCC CACACAGCGT GGAGGATTGT GAAGAAGGTT GCCTGCCCCC CGAGGAGGTG GACATGCTTC TCCAGCGCTG CGAGGGAGGT GTGGACGCCG CGCTGCAGTA TGCAAAAGAC ATGGCCAGGT ACATGAAGGA CCTCATCGGC TACCTGGAGA AGAGGACCAC CCTGGAGATG GAATTCGCCA AAGGGCTGCA GAAGGTCGTC CATAACTGCA GACAGAACGT CACTCATGCG CCCCACATGC CTCTCTTATC CATCTACTCA CTGGCCCTGG AACAAGATCT GGAGTTTGGC CACGGCATGG TGCAGGCAGT GGGCACGCTG CAGACCCAGA CCTTCATGCA GCCCCTGACC CTGCGGCGGT TGGAGCATGA GAGACGCAGG AAGGAGATCA AAGAATCCTG GCATCGTGCA CAGAGGAAGC TGCAAGAGGC AGAGGCCAAC CTGCGCAAGG CTAAACAGGG CTACAAACAA CGTTGTGAAG ACCACGACAA GGCCCGGCTC CAGGTGGCCA AGGCTGAGGA GGAACAACAG GGCACAGGGC CAGGAGCAGG GACTGCAGCC TCCAAGGCCC TGGACAAGAG GCGGAGGCTG GAGGAAGAGG CCAAAAACAA GGCCGAGGAG GCCATGGCCA CTTACCGCAC ATGCGTGGCA GATGCAAAGA CACAGAAGCA AGAGCTGGAG GACACAAAGG TGACTGCGCT GCGACAGATC CAGGAGGTCA TCAGACAGAG TGATCAGACC ATTAAGTCGG CCACCATCTC CTACTACCAG CTGATGCACA TGCAGACAGC GCCGCTGCCT GTGAACTTCC AGATGCTGTG CGAGAGCAGC AAACTATATG ACCCGGGCCA ACAGTACGCA TCTCACGTGC GTCAGCTGCA GCGAGGCGAG GAGCCGGATG TGCGCTACGA CTTTGAGCCT TATGTCTCCA CCAATGCCTG GTCCCCAATC ATGCGAACAC GGAAGGGCAG CTTCAATCCT GGTGACGCTT CAGGACCCGA AGCTGCCGGC AGTCCCCCGG AGGAAGGTGG CACGTCTGAG GGGGCTCCCA ACAAGGACCA CAGGGGGGGA CGAGGTCATC AGGTACATAA GTCCTGGCCT ATCTCCATCT CAGACACCGA AGTCAGCCTG GACGTCAGCT CAGGGGACTT GAAGAAGTTC GATCGAACCT CGTCCAGCGG GACCATGTCA TCCAATGAGG AGCTGGTAGA TCAGGAAGCT GGCTTGGTCG CCTCCGCTTT TGATTCAGCT GACCTCAATG GCATGGATCC CGAGTTACCT GTTGCCATGC CCAGTGGACC CTTCCGCCAT GTGGGATTGT CCAAGGCAGC CCGCACACAC CGACTTCGCA AGCTGCGAAC GCCGGCCAAG TGCAGAGAGT GTAACAGCTA CGTGTACTTC CAAGGGGCCG AATGTGAAGA GTGCTGTCTG GCTTGTCACA AAAAGTGTTT GGAGACCCTG GCTATCCAGT GTGGTCACAA GAAGCTTCAG GGCCGCCTGC AGCTGTTTGG TCAAGACTTC AGCCAGGCAG CCCACAGCAC CCCTGATGGG GTGCCCTTCA TTATTAAAAA GTGTGTCTGT GAGATTGAGC GGCGGGCACT GCACACTAAG GGGATCTACC GGGTCAACGG CGTGAAAACG CGTGTGGAGA AGCTGTGCCA GGCCTTTGAG AATGGCAAAG AGCTGGTGGA GTTGTCACAG GCCTCACCGC ACGACATAAG CAATGTCCTG AAGCTGTACC TACGGCAGCT GCCGGAGCCC CTCATCTCTT TTCGCTTCTA CCATGAGCTG GTGGGATTAG CTAAGGACAG CCTAAAGGCA GAGGCCGAAG CCAAGGCAGC AAGCCGGGGC CGGCAGGACG GGTCCGAGAG TGAGGCTGCG ACCTTGGCCA TGGTGGGCCG CCTGCGAGAG CTCATGCGGG ACCTGCCAGC CGAAAACCGG GCCACACTCT TATACCTGCT GAGGCACCTG CGAAGGATCG TGGAAATGGA GCAAGATAAC AAGATGACCC CCGGGAACCT GGGCATCGTT TTCGGGCCCA CACTGCTGCG GCCTCGGCCC ACAGACGCCA CCGTGTCCCT CTCTTCTCTG GTGGACTACC CCCACCAGGC CCGTGTCATT GAGACTCTGA TTGTCCACTA TGGCCTGGTC TTTGAGGAGG AGCCAGAAGA AGCAGCTGGC AGCCAAGAGG GGGCGTCCGC CCAGTGTGCC CAGCTGGAGA CTGCTGAGGG CATTGTCTTC CCCCAGCAGG AGGAGGCGGA CGATGGAAAC CGAGAATCCC AGGTGGCATC CAATGACTCA GACTCAGAGC TGGAAGAGGC TTCTGACCTC CTTTCGTCCT CGGACGCCAG CGCCCTGCAC CGCCTCAGTT TCCTGGAGCA GACCGAGGCA GGCCTGGAGG AAGGTCCCCA GAGCCACAGT GGCAGTGAGG AACAGCTGGA GAGTGAGGAT GCAGCCCCAG GCCATCAGCT GTGTTCCTTC AACACCAACC AGTCCAACAA CACCACACAA GCCTCTCTGC CCACCATGCG ACTCCGAGAT GGGCAGATCA CAGGTGGCAG CGGTCGGAAG CGGCAGCCAC AGTTTGTCTG A
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_001101537.1
CDS 106..3456
Translation
Target ORF information:
RefSeq Version NM_001108067.1
Organism Rattus norvegicus(Norway rat)
Definition Rattus norvegicus Rho GTPase activating protein 45 (Arhgap45), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_001108067.1
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 ATGTTCTCTC GGAAGAAGCG AGAACTTATG AAAACTCCCT CTATTTCCAA AAAGAACCGC GCGGGGAGCC CCAACCCGCA GTCCTCCTCA GGGGAGCTGC CTCGGAAAGA CTGTACAGAA ACTCCTAGCC TGGAGCCACC AGCCATGTCC CTGTCCACGG TGGCCAAGGG CACAGGAACA CTCAAAAGGC CAACCAGCCT GAGCCGCCAT GCCAGCGCTG CAGGCTTCCC ACTCTCGGGC ACTGCCACAC GGACTCTGGG CCGTGGATAT CGAAGCCCCC TCTCTGCTGC CAGCCCCGCA GAGCTACCCA CTGAGGGACC TTTCCCTGAC GGTGTAGAAG ACATCTCAAC CCTGCTGGCT GATGTTGCCC GCTTTGCTGA GGGCTTGGAG AAGCTCAAGG AGTTTGTGCT GCGGGATGAT CTCCTTGAGG CCCGCCGGCC CCTGGCTCAT GAATGCCTGG GTGAAGCTCT GCGAGTCATG CGTCAGGTCA TCTCCAAATA CCCACTCCTG AACACCGTGG AGACACTCAC AGCTGCTGGT ACACTCATTG CCAAGGTCAA AGCCTTTCAT TATGAATGCA ACAATGAATC AGATAAGAGG GAGTTTGAGA AGGCACTGGA GACCATTGCT GTGTCCTTCA GCTGCACTGT GTCGGAGTTC CTTTTGGGTG AAGTGGACAG CAGTACACTC CTGGCTGTGC CTCCGGGGGA CCCTAGCCAG TTGGTGGAGA ACCTTTATGG GTCAGGCAGT GAGGGGCCCC CACACAGCGT GGAGGATTGT GAAGAAGGTT GCCTGCCCCC CGAGGAGGTG GACATGCTTC TCCAGCGCTG CGAGGGAGGT GTGGACGCCG CGCTGCAGTA TGCAAAAGAC ATGGCCAGGT ACATGAAGGA CCTCATCGGC TACCTGGAGA AGAGGACCAC CCTGGAGATG GAATTCGCCA AAGGGCTGCA GAAGGTCGTC CATAACTGCA GACAGAACGT CACTCATGCG CCCCACATGC CTCTCTTATC CATCTACTCA CTGGCCCTGG AACAAGATCT GGAGTTTGGC CACGGCATGG TGCAGGCAGT GGGCACGCTG CAGACCCAGA CCTTCATGCA GCCCCTGACC CTGCGGCGGT TGGAGCATGA GAGACGCAGG AAGGAGATCA AAGAATCCTG GCATCGTGCA CAGAGGAAGC TGCAAGAGGC AGAGGCCAAC CTGCGCAAGG CTAAACAGGG CTACAAACAA CGTTGTGAAG ACCACGACAA GGCCCGGCTC CAGGTGGCCA AGGCTGAGGA GGAACAACAG GGCACAGGGC CAGGAGCAGG GACTGCAGCC TCCAAGGCCC TGGACAAGAG GCGGAGGCTG GAGGAAGAGG CCAAAAACAA GGCCGAGGAG GCCATGGCCA CTTACCGCAC ATGCGTGGCA GATGCAAAGA CACAGAAGCA AGAGCTGGAG GACACAAAGG TGACTGCGCT GCGACAGATC CAGGAGGTCA TCAGACAGAG TGATCAGACC ATTAAGTCGG CCACCATCTC CTACTACCAG CTGATGCACA TGCAGACAGC GCCGCTGCCT GTGAACTTCC AGATGCTGTG CGAGAGCAGC AAACTATATG ACCCGGGCCA ACAGTACGCA TCTCACGTGC GTCAGCTGCA GCGAGGCGAG GAGCCGGATG TGCGCTACGA CTTTGAGCCT TATGTCTCCA CCAATGCCTG GTCCCCAATC ATGCGAACAC GGAAGGGCAG CTTCAATCCT GGTGACGCTT CAGGACCCGA AGCTGCCGGC AGTCCCCCGG AGGAAGGTGG CACGTCTGAG GGGGCTCCCA ACAAGGACCA CAGGGGGGGA CGAGGTCATC AGGTACATAA GTCCTGGCCT ATCTCCATCT CAGACACCGA AGTCAGCCTG GACGTCAGCT CAGGGGACTT GAAGAAGTTC GATCGAACCT CGTCCAGCGG GACCATGTCA TCCAATGAGG AGCTGGTAGA TCAGGAAGCT GGCTTGGTCG CCTCCGCTTT TGATTCAGCT GACCTCAATG GCATGGATCC CGAGTTACCT GTTGCCATGC CCAGTGGACC CTTCCGCCAT GTGGGATTGT CCAAGGCAGC CCGCACACAC CGACTTCGCA AGCTGCGAAC GCCGGCCAAG TGCAGAGAGT GTAACAGCTA CGTGTACTTC CAAGGGGCCG AATGTGAAGA GTGCTGTCTG GCTTGTCACA AAAAGTGTTT GGAGACCCTG GCTATCCAGT GTGGTCACAA GAAGCTTCAG GGCCGCCTGC AGCTGTTTGG TCAAGACTTC AGCCAGGCAG CCCACAGCAC CCCTGATGGG GTGCCCTTCA TTATTAAAAA GTGTGTCTGT GAGATTGAGC GGCGGGCACT GCACACTAAG GGGATCTACC GGGTCAACGG CGTGAAAACG CGTGTGGAGA AGCTGTGCCA GGCCTTTGAG AATGGCAAAG AGCTGGTGGA GTTGTCACAG GCCTCACCGC ACGACATAAG CAATGTCCTG AAGCTGTACC TACGGCAGCT GCCGGAGCCC CTCATCTCTT TTCGCTTCTA CCATGAGCTG GTGGGATTAG CTAAGGACAG CCTAAAGGCA GAGGCCGAAG CCAAGGCAGC AAGCCGGGGC CGGCAGGACG GGTCCGAGAG TGAGGCTGCG ACCTTGGCCA TGGTGGGCCG CCTGCGAGAG CTCATGCGGG ACCTGCCAGC CGAAAACCGG GCCACACTCT TATACCTGCT GAGGCACCTG CGAAGGATCG TGGAAATGGA GCAAGATAAC AAGATGACCC CCGGGAACCT GGGCATCGTT TTCGGGCCCA CACTGCTGCG GCCTCGGCCC ACAGACGCCA CCGTGTCCCT CTCTTCTCTG GTGGACTACC CCCACCAGGC CCGTGTCATT GAGACTCTGA TTGTCCACTA TGGCCTGGTC TTTGAGGAGG AGCCAGAAGA AGCAGCTGGC AGCCAAGAGG GGGCGTCCGC CCAGTGTGCC CAGCTGGAGA CTGCTGAGGG CATTGTCTTC CCCCAGCAGG AGGAGGCGGA CGATGGAAAC CGAGAATCCC AGGTGGCATC CAATGACTCA GACTCAGAGC TGGAAGAGGC TTCTGACCTC CTTTCGTCCT CGGACGCCAG CGCCCTGCAC CGCCTCAGTT TCCTGGAGCA GACCGAGGCA GGCCTGGAGG AAGGTCCCCA GAGCCACAGT GGCAGTGAGG AACAGCTGGA GAGTGAGGAT GCAGCCCCAG GCCATCAGCT GTGTTCCTTC AACACCAACC AGTCCAACAA CACCACACAA GCCTCTCTGC CCACCATGCG ACTCCGAGAT GGGCAGATCA CAGGTGGCAG CGGTCGGAAG CGGCAGCCAC AGTTTGTCTG A
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.