CSPP1 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	CSPP1
Entrez Gene ID	103052917
Full Name	centrosome and spindle pole associated protein 1
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007429626.2	XP_007429688.2	centrosome and spindle pole-associated protein 1
XM_025167556.1	XP_025023324.1	centrosome and spindle pole-associated protein 1

Pathways from BioSystems
Gene Ontology

The following CSPP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CSPP1 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
OPy08430	XM_007429626.2 Latest version!	Python bivittatus centrosome and spindle pole associated protein 1 (CSPP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPy127159	XM_025167556.1 Latest version!	Python bivittatus centrosome and spindle pole associated protein 1 (CSPP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

CSPP1 ( XM_007429626.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007429688.2 Python bivittatus centrosome and spindle pole associated protein 1 (CSPP1), mRNA.

Price & Availability↑

CloneID	OPy08430
Clone ID Related Accession (Same CDS sequence)	XM_007429626.2
Accession Version	XM_007429626.2 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	centrosome and spindle pole-associated protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533267.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 11, 2016 this sequence version replaced XM_007429626.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Python bivittatus Annotation Release 101 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## ab initio :: 7% of CDS bases ##RefSeq-Attributes-END##

ATGAAGCGCC TCGGGCAGGA GGAACCTCTC GGTCCGCCGC CGGACAGCGC AAACCGGAAA 
ACTGTCTCCC TACCTCTTCC TGCAAACATG ACATTAAGTA GGAGGCAGGA TAGCTGGATA 
ACTGATGAGG TACTATCTTC AGTTAGCTTG TCATTTCCAG AACTAAAAAT GATGGCTGAG 
AACCTAGAAA AGTTCCTTGA AGACCACAAA GCCAGATTGT TACAGGATAA AGCAAAACTG 
GAAAATGATC CCCCTTACAT GGAAATGCAG AACAAGAGTA CAGAGAAATT TTCAGAGGCT 
AGTGAATTAT TAATCTCCAT GGCTAAAGAA AACATCCCAC CAAACAGTCA ACATATTGCT 
TTGCATGACT ATGGCTTAAG CTTGCCTCTT GGGGAAGAAT ATGAACATAA AAAACACAAA 
CTAAAGGAGG AACTTCGGCA GGATTACAGG CGATATCTTT CACAGGGTAT GTCAGAGGCA 
AAAAAGAAGA AAAGATACTT AACATCAGGT GAAGTTGACC CATATACTCA GGGACTTTCT 
CTTCCTATTT GTGACAGAAG GTCCGCTAAG GACAGGTTAA GACTTGAAAG AAACAAGGAA 
TACAATCAGT ATCTCAGGGA AAAGGAAGAA TGGAATGAAA GGTTAAGAAG AGTAGGGAAG 
AAACAAACAG AGCATGACAC AGATATACAT AAGCAAAATT TTGCTGTTAG CAGAGTCCAA 
TCAGAATTAT ATGCTCCAAA TGCGTCTTCT CAAAAAGATG AAGAATCCTG CAAGAAAGAT 
GCTTATACAT CTACAGATAC CTATCAAGGA TTATCAAATA TAAAATTATT GCTAGACCAA 
CAACATAAAC CAGATACTGA AACTGGATTT GGGAACTCAT TACTGAATAA AACACTTGAT 
GAAAAATTGA ACATTTCCAG TCGAAAGCAA GGAAAGCTGG ATAGCAAACC TGAAAACTGT 
TCCCAAAGGC ATCACAAGTG TGAGGATCAT GATCCTGAAA TAAATGATGA AATGGATCCC 
AGGTTTCGAT ATGAAAGCGA TTATGACAAA AAACCATTGC GGGTCTTTCA TGCCCAAAGA 
AGTCAAGGAA ATTCTCCTAT TGAGCAAGTA CAGACTGCTG TTGATAGAGT TCCATATGCC 
ACAGGACTCA TACTTGGAGG TCAAGACAGA GAGCTTATTC AGAGAAGAAA AGAACAATAT 
AGGCAGGAAT TAATGGAGCA AATGGCTGAG CAGCAAAGAA ATAAGAGACG TGAAAAGGAG 
CTTGACCTCC CTGTTGCTGC ATCGGGAGTT GTAGATCCTG AGAAAAAGCC CAACAGACTA 
AAAGAGTTGG GATTAAAGCC ACAAATACCT GAGGAGAAAA TACCACCTGA AAGACCAAGA 
CCAGCTTTCC ATACTCCCAC TCCTGGAATT ACTTCCATAT CTGCACCTCC TGTGTCACCA 
GTGAATGAAG ATTACCATAG AGGCTTGTCC AGTGCACTTG GAGAAATGTT GGCTCCCAGA 
ATTGCACCCC TTCCACCACC ACTTCCTCCA CCAATTTTGA CTGATAGCTA TAGAACTCCA 
TATGATGATG CTTACTACTT CTATGGCACC AGAAATCCTT TGGATCCCAG CCTTGCATAT 
TATGGTGCAG GTGCAATGGG GGTACAGCCT TCATCTGCAC CACCACCTCT TGATACTACT 
CAAAAACCTC CTGCTGTGCC TATCAGTAAA ATTGAAGCAA GCATTGCAAG TATTAGACCA 
AAAGGTTTGG GAATATTTCC TGAAGAAAAA CCAAAACCCA CAAGAGAGGC TACCTTAGCT 
TATCAGCAAG AATTACAACA GCAGATAAGG GAAAGAGAAG AACGTCGTAG GCAAGAAAAG 
GAAGAAAAAG AACGCTATGA AGCCAAATTA GAAGCTGAAA TGAAAAATTA CAACCCTTGG 
GGAAAAGGAG GTGGCGGGGC TCCTCTCAGA GATAAAAAAG GAAATCTCAT AACGGACTTG 
AATATGATGC ACAAGCAAAA TGAAGATGCG TATCATAATC CAGAGGCACG AGCATATGAA 
GATAAAAGAG CTATAGTATC TGTTGACCTA AGTTTGGCCT CACCAAGACT TGAGAATACA 
GATGAATCTA CAAATAAAAT AGCAGGCTTT ACATATACAC AAACTTCCCC ATTCGCTCGT 
GGTAATGTTT TTGGAGAACC CCCAAGTCCA GAACAGCTTA GGAGACAAGA ATCATATAAG 
AACTTCCTTC GTTTTCAAAT GGAGGAGAAA AGAAAAAGAG AAGAAGAAGA ACGTGAAAAA 
CGAAGGCTTG AAGAAGAAAG GGAAGAAAGA AGGTTAGCTG AGCAGAGGGC TAGAATACAG 
AGAGAATATG AAGAGGAACT GGAAAAGAGG AGAAAGAAAG AAGAAGAGAA TATTGAAACT 
GAAAAACATT TGATTGAAGA GAAGATTTCT AGATACCCTT CTCCTCTTAT ACCAACTCTT 
CAGAATAAAG CATTAGTAAA AGAAGAAAGG TCACTTCTGA CGGAGAGCCG TTTGTCTTAT 
TATACACATG ATGTCCCCAG AGTTCAGTCT CCTCCAGTAC CAGCTAGAAG AAACCAATTA 
CGCGCATATG AAGAAAGAAA GAATGTGATA AATGAGCTTT CAGAGATGCG AAAGCAGCTC 
CGCAGTGAAG AGCGGCGACT ACAGGAGCAG TTGTTAAAAG TGCACAGTGA TGATGATGAA 
ATGCCAGTGA AAGGGAGAAA AGATAAACAG AATCTGGATG TATTTGAAAT GGCTAGACTT 
CGCATGCAAG CTCCAGTAAG GCGGCCATCT TCAAAGGATA TTGCTGATCC TATTAATCTA 
CAAAATATCC GTGAATTTAA TGAACTTAAA TACAAAGATT CAGAAACACG ATTAGAAACA 
AGACATATGT ATCCTGATCC TCCCACCAAT AATGATACTC TGGACATTCA ACAGCTAGCA 
TTGCTAAGAG AGCAAAAAAA GAAACTTAAA AAATTGAGAA ACGCAGAAGG ATCCCTAGAT 
TTTGATGATC CTGTATCTAG CACTAGACCA AGAAACAAGG GATTGGTTAG AGATGAAGAC 
TCAGATGGAT TTATGAAAAC CTCACTCTTG GAATCTGAGA GTGCTTTTAT TGATACAGAT 
GGTGAAACCT ACCCAATTTT AGAAGAGCAT AACTTCAATA TGAATATATC TCCTTCACCG 
CCTGTGTCTG CAAGGGAAAG GAGGAGAGAA AAGAAGAAGG ATGATGCTTC CCATAGGGTG 
ACTCCACCAC CACAGTTTGA CAACAGCTCT CTGCACTCGA ACTCTAGTCT CAATATAGAT 
CAATTAAAAG CCAGAAATGA AGAAAGGCTG CAAAAATTAA ATGAACTACA TAAGAAGGCC 
ATTCATATAG CTGATGACAT TTCACTGGGG AATGGTGTTG ACATCTTGAA GGAATTACCT 
CCTAAACATG GCAGAAGATC CAGTTCGGTT GACTCTGTGG CAACTGAGCC GTGGCTTAGA 
CCTGGGACAT CAGAAACCCT TAAAAGATTC ATGGCTGAGC AGTCAAGTCA AGCTAAACCG 
ACTTCTGAGA AGAGCATAAC ATTCAATTGG CAGGGGCTGT CAACTGCCCA TGGTTAA

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

RefSeq	XP_007429688.2
CDS	1..3597
Translation	MKRLGQEEPLGPPPDSANRKTVSLPLPANMTLSRRQDSWITDEVLSSVSLSFPELKMMAENLEKFLEDHKARLLQDKAKLENDPPYMEMQNKSTEKFSEASELLISMAKENIPPNSQHIALHDYGLSLPLGEEYEHKKHKLKEELRQDYRRYLSQGMSEAKKKKRYLTSGEVDPYTQGLSLPICDRRSAKDRLRLERNKEYNQYLREKEEWNERLRRVGKKQTEHDTDIHKQNFAVSRVQSELYAPNASSQKDEESCKKDAYTSTDTYQGLSNIKLLLDQQHKPDTETGFGNSLLNKTLDEKLNISSRKQGKLDSKPENCSQRHHKCEDHDPEINDEMDPRFRYESDYDKKPLRVFHAQRSQGNSPIEQVQTAVDRVPYATGLILGGQDRELIQRRKEQYRQELMEQMAEQQRNKRREKELDLPVAASGVVDPEKKPNRLKELGLKPQIPEEKIPPERPRPAFHTPTPGITSISAPPVSPVNEDYHRGLSSALGEMLAPRIAPLPPPLPPPILTDSYRTPYDDAYYFYGTRNPLDPSLAYYGAGAMGVQPSSAPPPLDTTQKPPAVPISKIEASIASIRPKGLGIFPEEKPKPTREATLAYQQELQQQIREREERRRQEKEEKERYEAKLEAEMKNYNPWGKGGGGAPLRDKKGNLITDLNMMHKQNEDAYHNPEARAYEDKRAIVSVDLSLASPRLENTDESTNKIAGFTYTQTSPFARGNVFGEPPSPEQLRRQESYKNFLRFQMEEKRKREEEEREKRRLEEEREERRLAEQRARIQREYEEELEKRRKKEEENIETEKHLIEEKISRYPSPLIPTLQNKALVKEERSLLTESRLSYYTHDVPRVQSPPVPARRNQLRAYEERKNVINELSEMRKQLRSEERRLQEQLLKVHSDDDEMPVKGRKDKQNLDVFEMARLRMQAPVRRPSSKDIADPINLQNIREFNELKYKDSETRLETRHMYPDPPTNNDTLDIQQLALLREQKKKLKKLRNAEGSLDFDDPVSSTRPRNKGLVRDEDSDGFMKTSLLESESAFIDTDGETYPILEEHNFNMNISPSPPVSARERRREKKKDDASHRVTPPPQFDNSSLHSNSSLNIDQLKARNEERLQKLNELHKKAIHIADDISLGNGVDILKELPPKHGRRSSSVDSVATEPWLRPGTSETLKRFMAEQSSQAKPTSEKSITFNWQGLSTAHG

Target ORF information:

RefSeq Version	XM_007429626.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus centrosome and spindle pole associated protein 1 (CSPP1), mRNA.

Target ORF information:

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

XM_007429626.2

ORF Insert Sequence:

ATGAAGCGCC TCGGGCAGGA GGAACCTCTC GGTCCGCCGC CGGACAGCGC AAACCGGAAA 
ACTGTCTCCC TACCTCTTCC TGCAAACATG ACATTAAGTA GGAGGCAGGA TAGCTGGATA 
ACTGATGAGG TACTATCTTC AGTTAGCTTG TCATTTCCAG AACTAAAAAT GATGGCTGAG 
AACCTAGAAA AGTTCCTTGA AGACCACAAA GCCAGATTGT TACAGGATAA AGCAAAACTG 
GAAAATGATC CCCCTTACAT GGAAATGCAG AACAAGAGTA CAGAGAAATT TTCAGAGGCT 
AGTGAATTAT TAATCTCCAT GGCTAAAGAA AACATCCCAC CAAACAGTCA ACATATTGCT 
TTGCATGACT ATGGCTTAAG CTTGCCTCTT GGGGAAGAAT ATGAACATAA AAAACACAAA 
CTAAAGGAGG AACTTCGGCA GGATTACAGG CGATATCTTT CACAGGGTAT GTCAGAGGCA 
AAAAAGAAGA AAAGATACTT AACATCAGGT GAAGTTGACC CATATACTCA GGGACTTTCT 
CTTCCTATTT GTGACAGAAG GTCCGCTAAG GACAGGTTAA GACTTGAAAG AAACAAGGAA 
TACAATCAGT ATCTCAGGGA AAAGGAAGAA TGGAATGAAA GGTTAAGAAG AGTAGGGAAG 
AAACAAACAG AGCATGACAC AGATATACAT AAGCAAAATT TTGCTGTTAG CAGAGTCCAA 
TCAGAATTAT ATGCTCCAAA TGCGTCTTCT CAAAAAGATG AAGAATCCTG CAAGAAAGAT 
GCTTATACAT CTACAGATAC CTATCAAGGA TTATCAAATA TAAAATTATT GCTAGACCAA 
CAACATAAAC CAGATACTGA AACTGGATTT GGGAACTCAT TACTGAATAA AACACTTGAT 
GAAAAATTGA ACATTTCCAG TCGAAAGCAA GGAAAGCTGG ATAGCAAACC TGAAAACTGT 
TCCCAAAGGC ATCACAAGTG TGAGGATCAT GATCCTGAAA TAAATGATGA AATGGATCCC 
AGGTTTCGAT ATGAAAGCGA TTATGACAAA AAACCATTGC GGGTCTTTCA TGCCCAAAGA 
AGTCAAGGAA ATTCTCCTAT TGAGCAAGTA CAGACTGCTG TTGATAGAGT TCCATATGCC 
ACAGGACTCA TACTTGGAGG TCAAGACAGA GAGCTTATTC AGAGAAGAAA AGAACAATAT 
AGGCAGGAAT TAATGGAGCA AATGGCTGAG CAGCAAAGAA ATAAGAGACG TGAAAAGGAG 
CTTGACCTCC CTGTTGCTGC ATCGGGAGTT GTAGATCCTG AGAAAAAGCC CAACAGACTA 
AAAGAGTTGG GATTAAAGCC ACAAATACCT GAGGAGAAAA TACCACCTGA AAGACCAAGA 
CCAGCTTTCC ATACTCCCAC TCCTGGAATT ACTTCCATAT CTGCACCTCC TGTGTCACCA 
GTGAATGAAG ATTACCATAG AGGCTTGTCC AGTGCACTTG GAGAAATGTT GGCTCCCAGA 
ATTGCACCCC TTCCACCACC ACTTCCTCCA CCAATTTTGA CTGATAGCTA TAGAACTCCA 
TATGATGATG CTTACTACTT CTATGGCACC AGAAATCCTT TGGATCCCAG CCTTGCATAT 
TATGGTGCAG GTGCAATGGG GGTACAGCCT TCATCTGCAC CACCACCTCT TGATACTACT 
CAAAAACCTC CTGCTGTGCC TATCAGTAAA ATTGAAGCAA GCATTGCAAG TATTAGACCA 
AAAGGTTTGG GAATATTTCC TGAAGAAAAA CCAAAACCCA CAAGAGAGGC TACCTTAGCT 
TATCAGCAAG AATTACAACA GCAGATAAGG GAAAGAGAAG AACGTCGTAG GCAAGAAAAG 
GAAGAAAAAG AACGCTATGA AGCCAAATTA GAAGCTGAAA TGAAAAATTA CAACCCTTGG 
GGAAAAGGAG GTGGCGGGGC TCCTCTCAGA GATAAAAAAG GAAATCTCAT AACGGACTTG 
AATATGATGC ACAAGCAAAA TGAAGATGCG TATCATAATC CAGAGGCACG AGCATATGAA 
GATAAAAGAG CTATAGTATC TGTTGACCTA AGTTTGGCCT CACCAAGACT TGAGAATACA 
GATGAATCTA CAAATAAAAT AGCAGGCTTT ACATATACAC AAACTTCCCC ATTCGCTCGT 
GGTAATGTTT TTGGAGAACC CCCAAGTCCA GAACAGCTTA GGAGACAAGA ATCATATAAG 
AACTTCCTTC GTTTTCAAAT GGAGGAGAAA AGAAAAAGAG AAGAAGAAGA ACGTGAAAAA 
CGAAGGCTTG AAGAAGAAAG GGAAGAAAGA AGGTTAGCTG AGCAGAGGGC TAGAATACAG 
AGAGAATATG AAGAGGAACT GGAAAAGAGG AGAAAGAAAG AAGAAGAGAA TATTGAAACT 
GAAAAACATT TGATTGAAGA GAAGATTTCT AGATACCCTT CTCCTCTTAT ACCAACTCTT 
CAGAATAAAG CATTAGTAAA AGAAGAAAGG TCACTTCTGA CGGAGAGCCG TTTGTCTTAT 
TATACACATG ATGTCCCCAG AGTTCAGTCT CCTCCAGTAC CAGCTAGAAG AAACCAATTA 
CGCGCATATG AAGAAAGAAA GAATGTGATA AATGAGCTTT CAGAGATGCG AAAGCAGCTC 
CGCAGTGAAG AGCGGCGACT ACAGGAGCAG TTGTTAAAAG TGCACAGTGA TGATGATGAA 
ATGCCAGTGA AAGGGAGAAA AGATAAACAG AATCTGGATG TATTTGAAAT GGCTAGACTT 
CGCATGCAAG CTCCAGTAAG GCGGCCATCT TCAAAGGATA TTGCTGATCC TATTAATCTA 
CAAAATATCC GTGAATTTAA TGAACTTAAA TACAAAGATT CAGAAACACG ATTAGAAACA 
AGACATATGT ATCCTGATCC TCCCACCAAT AATGATACTC TGGACATTCA ACAGCTAGCA 
TTGCTAAGAG AGCAAAAAAA GAAACTTAAA AAATTGAGAA ACGCAGAAGG ATCCCTAGAT 
TTTGATGATC CTGTATCTAG CACTAGACCA AGAAACAAGG GATTGGTTAG AGATGAAGAC 
TCAGATGGAT TTATGAAAAC CTCACTCTTG GAATCTGAGA GTGCTTTTAT TGATACAGAT 
GGTGAAACCT ACCCAATTTT AGAAGAGCAT AACTTCAATA TGAATATATC TCCTTCACCG 
CCTGTGTCTG CAAGGGAAAG GAGGAGAGAA AAGAAGAAGG ATGATGCTTC CCATAGGGTG 
ACTCCACCAC CACAGTTTGA CAACAGCTCT CTGCACTCGA ACTCTAGTCT CAATATAGAT 
CAATTAAAAG CCAGAAATGA AGAAAGGCTG CAAAAATTAA ATGAACTACA TAAGAAGGCC 
ATTCATATAG CTGATGACAT TTCACTGGGG AATGGTGTTG ACATCTTGAA GGAATTACCT 
CCTAAACATG GCAGAAGATC CAGTTCGGTT GACTCTGTGG CAACTGAGCC GTGGCTTAGA 
CCTGGGACAT CAGAAACCCT TAAAAGATTC ATGGCTGAGC AGTCAAGTCA AGCTAAACCG 
ACTTCTGAGA AGAGCATAAC ATTCAATTGG CAGGGGCTGT CAACTGCCCA TGGTTAA

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

CSPP1 ( XM_025167556.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025023324.1 Python bivittatus centrosome and spindle pole associated protein 1 (CSPP1), mRNA.

Price & Availability↑

CloneID	OPy127159
Clone ID Related Accession (Same CDS sequence)	XM_025167556.1
Accession Version	XM_025167556.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3525bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	centrosome and spindle pole-associated protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533267.1) 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 Name :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCTG AGAACCTAGA AAAGTTCCTT GAAGACCACA AAGCCAGATT GTTACAGGAT 
AAAGCAAAAC TGGAAAATGA TCCCCCTTAC ATGGAAATGC AGAACAAGAG TACAGAGAAA 
TTTTCAGAGG CTAGTGAATT ATTAATCTCC ATGGCTAAAG AAAACATCCC ACCAAACAGT 
CAACATATTG CTTTGCATGA CTATGGCTTA AGCTTGCCTC TTGGGGAAGA ATATGAACAT 
AAAAAACACA AACTAAAGGA GGAACTTCGG CAGGATTACA GGCGATATCT TTCACAGGGT 
ATGTCAGAGG CAAAAAAGAA GAAAAGATAC TTAACATCAG GTGAAGTTGA CCCATATACT 
CAGGGACTTT CTCTTCCTAT TTGTGACAGA AGGTCCGCTA AGGACAGGTT AAGACTTGAA 
AGAAACAAGG AATACAATCA GTATCTCAGG GAAAAGGAAG AATGGAATGA AAGGTTAAGA 
AGAGTAGGGA AGAAACAAAC AGAGCATGAC ACAGATATAC ATAAGCAAAA TTTTGCTGTT 
AGCAGAGTCC AATCAGAATT ATATGCTCCA AATGCGTCTT CTCAAAAAGA TGAAGAATCC 
TGCAAGAAAG ATGCTTATAC ATCTACAGAT ACCTATCAAG GATTATCAAA TATAAAATTA 
TTGCTAGACC AACAACATAA ACCAGATACT GAAACTGGAT TTGGGAACTC ATTACTGAAT 
AAAACACTTG ATGAAAAATT GAACATTTCC AGTCGAAAGC AAGGAAAGCT GGATAGCAAA 
CCTGAAAACT GTTCCCAAAG GCATCACAAG TGTGAGGATC ATGATCCTGA AATAAATGAT 
GAAATGGATC CCAGGTTTCG ATATGAAAGC GATTATGACA AAAAACCATT GCGGGTCTTT 
CATGCCCAAA GAAGTCAAGG AAATTCTCCT ATTGAGCAAG TACAGACTGC TGTTGATAGA 
GTTCCATATG CCACAGGACT CATACTTGGA GGTCAAGACA GAGAGCTTAT TCAGAGAAGA 
AAAGAACAAT ATAGGCAGGA ATTAATGGAG CAAATGGCTG AGCAGCAAAG AAATAAGAGA 
CGTGAAAAGG AGCTTGACCT CCCTGTTGCT GCATCGGGAG TTGTAGATCC TGAGAAAAAG 
CCCAACAGAC TAAAAGAGTT GGGATTAAAG CCACAAATAC CTGAGGAGAA AATACCACCT 
GAAAGACCAA GACCAGCTTT CCATACTCCC ACTCCTGGAA TTACTTCCAT ATCTGCACCT 
CCTGTGTCAC CAGTGAATGA AGATTACCAT AGAGGCTTGT CCAGTGCACT TGGAGAAATG 
TTGGCTCCCA GAATTGCACC CCTTCCACCA CCACTTCCTC CACCAATTTT GACTGATAGC 
TATAGAACTC CATATGATGA TGCTTACTAC TTCTATGGCA CCAGAAATCC TTTGGATCCC 
AGCCTTGCAT ATTATGGTGC AGGTGCAATG GGGGTACAGC CTTCATCTGC ACCACCACCT 
CTTGATACTA CTCAAAAACC TCCTGCTGTG CCTATCAGTA AAATTGAAGC AAGCATTGCA 
AGTATTAGAC CAAAAGGTTT GGGAATATTT CCTGAAGAAA AACCAAAACC CACAAGAGAG 
GCTACCTTAG CTTATCAGCA AGAATTACAA CAGCAGATAA GGGAAAGAGA AGAACGTCGT 
AGGCAAGAAA AGGAAGAAAA AGAACGCTAT GAAGCCAAAT TAGAAGCTGA AATGAAAAAT 
TACAACCCTT GGGGAAAAGG AGGTGGCGGG GCTCCTCTCA GAGATAAAAA AGGAAATCTC 
ATAACGGACT TGAATATGAT GCACAAGCAA AATGAAGATG CGTATCATAA TCCAGAGGCA 
CGAGCATATG AAGATAAAAG AGCTATAGTA TCTGTTGACC TAAGTTTGGC CTCACCAAGA 
CTTGAGAATA CAGATGAATC TACAAATAAA ATAGCAGGCT TTACATATAC ACAAACTTCC 
CCATTCGCTC GTGGTAATGT TTTTGGAGAA CCCCCAAGTC CAGAACAGCT TAGGAGACAA 
GAATCATATA AGAACTTCCT TCGTTTTCAA ATGGAGGAGA AAAGAAAAAG AGAAGAAGAA 
GAACGTGAAA AACGAAGGCT TGAAGAAGAA AGGGAAGAAA GAAGGTTAGC TGAGCAGAGG 
GCTAGAATAC AGAGAGAATA TGAAGAGGAA CTGGAAAAGA GGAGAAAGAA AGAAGAAGAG 
CAAAGGTTAA AAAATGAAGA ATTATACAGA TTAGCTGAAG AAAGAAGAAA AGAAGCTGAA 
AAGACAAAGA TAGAGGAAGA AGAAAAGGAT AAACAGAATA TTGAAACTGA AAAACATTTG 
ATTGAAGAGA AGATTTCTAG ATACCCTTCT CCTCTTATAC CAACTCTTCA GAATAAAGCA 
TTAGTAAAAG AAGAAAGGTC ACTTCTGACG GAGAGCCGTT TGTCTTATTA TACACATGAT 
GTCCCCAGAG TTCAGTCTCC TCCAGTACCA GCTAGAAGAA ACCAATTACG CGCATATGAA 
GAAAGAAAGA ATGTGATAAA TGAGCTTTCA GAGATGCGAA AGCAGCTCCG CAGTGAAGAG 
CGGCGACTAC AGGAGCAGTT GTTAAAAGTG CACAGTGATG ATGATGAAAT GCCAGTGAAA 
GGGAGAAAAG ATAAACAGAA TCTGGATGTA TTTGAAATGG CTAGACTTCG CATGCAAGCT 
CCAGTAAGGC GGCCATCTTC AAAGGATATT GCTGATCCTA TTAATCTACA AAATATCCGT 
GAATTTAATG AACTTAAATA CAAAGATTCA GAAACACGAT TAGAAACAAG ACATATGTAT 
CCTGATCCTC CCACCAATAA TGATACTCTG GACATTCAAC AGCTAGCATT GCTAAGAGAG 
CAAAAAAAGA AACTTAAAAA ATTGAGAAAC GCAGAAGGAT CCCTAGATTT TGATGATCCT 
GTATCTAGCA CTAGACCAAG AAACAAGGGA TTGGTTAGAG ATGAAGACTC AGATGGATTT 
ATGAAAACCT CACTCTTGGA ATCTGAGAGT GCTTTTATTG ATACAGATGG TGAAACCTAC 
CCAATTTTAG AAGAGCATAA CTTCAATATG AATATATCTC CTTCACCGCC TGTGTCTGCA 
AGGGAAAGGA GGAGAGAAAA GAAGAAGGAT GATGCTTCCC ATAGGGTGAC TCCACCACCA 
CAGTTTGACA ACAGCTCTCT GCACTCGAAC TCTAGTCTCA ATATAGATCA ATTAAAAGCC 
AGAAATGAAG AAAGGCTGCA AAAATTAAAT GAACTACATA AGAAGGCCAT TCATATAGCT 
GATGACATTT CACTGGGGAA TGGTGTTGAC ATCTTGAAGG AATTACCTCC TAAACATGGC 
AGAAGATCCA GTTCGGTTGA CTCTGTGGCA ACTGAGCCGT GGCTTAGACC TGGGACATCA 
GAAACCCTTA AAAGATTCAT GGCTGAGCAG TCAAGTCAAG CTAAACCGAC TTCTGAGAAG 
AGCATAACAT TCAATTGGCA GGGGCTGTCA ACTGCCCATG GTTAA

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

RefSeq	XP_025023324.1
CDS	245..3769
Translation	MMAENLEKFLEDHKARLLQDKAKLENDPPYMEMQNKSTEKFSEASELLISMAKENIPPNSQHIALHDYGLSLPLGEEYEHKKHKLKEELRQDYRRYLSQGMSEAKKKKRYLTSGEVDPYTQGLSLPICDRRSAKDRLRLERNKEYNQYLREKEEWNERLRRVGKKQTEHDTDIHKQNFAVSRVQSELYAPNASSQKDEESCKKDAYTSTDTYQGLSNIKLLLDQQHKPDTETGFGNSLLNKTLDEKLNISSRKQGKLDSKPENCSQRHHKCEDHDPEINDEMDPRFRYESDYDKKPLRVFHAQRSQGNSPIEQVQTAVDRVPYATGLILGGQDRELIQRRKEQYRQELMEQMAEQQRNKRREKELDLPVAASGVVDPEKKPNRLKELGLKPQIPEEKIPPERPRPAFHTPTPGITSISAPPVSPVNEDYHRGLSSALGEMLAPRIAPLPPPLPPPILTDSYRTPYDDAYYFYGTRNPLDPSLAYYGAGAMGVQPSSAPPPLDTTQKPPAVPISKIEASIASIRPKGLGIFPEEKPKPTREATLAYQQELQQQIREREERRRQEKEEKERYEAKLEAEMKNYNPWGKGGGGAPLRDKKGNLITDLNMMHKQNEDAYHNPEARAYEDKRAIVSVDLSLASPRLENTDESTNKIAGFTYTQTSPFARGNVFGEPPSPEQLRRQESYKNFLRFQMEEKRKREEEEREKRRLEEEREERRLAEQRARIQREYEEELEKRRKKEEEQRLKNEELYRLAEERRKEAEKTKIEEEEKDKQNIETEKHLIEEKISRYPSPLIPTLQNKALVKEERSLLTESRLSYYTHDVPRVQSPPVPARRNQLRAYEERKNVINELSEMRKQLRSEERRLQEQLLKVHSDDDEMPVKGRKDKQNLDVFEMARLRMQAPVRRPSSKDIADPINLQNIREFNELKYKDSETRLETRHMYPDPPTNNDTLDIQQLALLREQKKKLKKLRNAEGSLDFDDPVSSTRPRNKGLVRDEDSDGFMKTSLLESESAFIDTDGETYPILEEHNFNMNISPSPPVSARERRREKKKDDASHRVTPPPQFDNSSLHSNSSLNIDQLKARNEERLQKLNELHKKAIHIADDISLGNGVDILKELPPKHGRRSSSVDSVATEPWLRPGTSETLKRFMAEQSSQAKPTSEKSITFNWQGLSTAHG

Target ORF information:

RefSeq Version	XM_025167556.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus centrosome and spindle pole associated protein 1 (CSPP1), mRNA.

Target ORF information:

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

XM_025167556.1

ORF Insert Sequence:

ATGATGGCTG AGAACCTAGA AAAGTTCCTT GAAGACCACA AAGCCAGATT GTTACAGGAT 
AAAGCAAAAC TGGAAAATGA TCCCCCTTAC ATGGAAATGC AGAACAAGAG TACAGAGAAA 
TTTTCAGAGG CTAGTGAATT ATTAATCTCC ATGGCTAAAG AAAACATCCC ACCAAACAGT 
CAACATATTG CTTTGCATGA CTATGGCTTA AGCTTGCCTC TTGGGGAAGA ATATGAACAT 
AAAAAACACA AACTAAAGGA GGAACTTCGG CAGGATTACA GGCGATATCT TTCACAGGGT 
ATGTCAGAGG CAAAAAAGAA GAAAAGATAC TTAACATCAG GTGAAGTTGA CCCATATACT 
CAGGGACTTT CTCTTCCTAT TTGTGACAGA AGGTCCGCTA AGGACAGGTT AAGACTTGAA 
AGAAACAAGG AATACAATCA GTATCTCAGG GAAAAGGAAG AATGGAATGA AAGGTTAAGA 
AGAGTAGGGA AGAAACAAAC AGAGCATGAC ACAGATATAC ATAAGCAAAA TTTTGCTGTT 
AGCAGAGTCC AATCAGAATT ATATGCTCCA AATGCGTCTT CTCAAAAAGA TGAAGAATCC 
TGCAAGAAAG ATGCTTATAC ATCTACAGAT ACCTATCAAG GATTATCAAA TATAAAATTA 
TTGCTAGACC AACAACATAA ACCAGATACT GAAACTGGAT TTGGGAACTC ATTACTGAAT 
AAAACACTTG ATGAAAAATT GAACATTTCC AGTCGAAAGC AAGGAAAGCT GGATAGCAAA 
CCTGAAAACT GTTCCCAAAG GCATCACAAG TGTGAGGATC ATGATCCTGA AATAAATGAT 
GAAATGGATC CCAGGTTTCG ATATGAAAGC GATTATGACA AAAAACCATT GCGGGTCTTT 
CATGCCCAAA GAAGTCAAGG AAATTCTCCT ATTGAGCAAG TACAGACTGC TGTTGATAGA 
GTTCCATATG CCACAGGACT CATACTTGGA GGTCAAGACA GAGAGCTTAT TCAGAGAAGA 
AAAGAACAAT ATAGGCAGGA ATTAATGGAG CAAATGGCTG AGCAGCAAAG AAATAAGAGA 
CGTGAAAAGG AGCTTGACCT CCCTGTTGCT GCATCGGGAG TTGTAGATCC TGAGAAAAAG 
CCCAACAGAC TAAAAGAGTT GGGATTAAAG CCACAAATAC CTGAGGAGAA AATACCACCT 
GAAAGACCAA GACCAGCTTT CCATACTCCC ACTCCTGGAA TTACTTCCAT ATCTGCACCT 
CCTGTGTCAC CAGTGAATGA AGATTACCAT AGAGGCTTGT CCAGTGCACT TGGAGAAATG 
TTGGCTCCCA GAATTGCACC CCTTCCACCA CCACTTCCTC CACCAATTTT GACTGATAGC 
TATAGAACTC CATATGATGA TGCTTACTAC TTCTATGGCA CCAGAAATCC TTTGGATCCC 
AGCCTTGCAT ATTATGGTGC AGGTGCAATG GGGGTACAGC CTTCATCTGC ACCACCACCT 
CTTGATACTA CTCAAAAACC TCCTGCTGTG CCTATCAGTA AAATTGAAGC AAGCATTGCA 
AGTATTAGAC CAAAAGGTTT GGGAATATTT CCTGAAGAAA AACCAAAACC CACAAGAGAG 
GCTACCTTAG CTTATCAGCA AGAATTACAA CAGCAGATAA GGGAAAGAGA AGAACGTCGT 
AGGCAAGAAA AGGAAGAAAA AGAACGCTAT GAAGCCAAAT TAGAAGCTGA AATGAAAAAT 
TACAACCCTT GGGGAAAAGG AGGTGGCGGG GCTCCTCTCA GAGATAAAAA AGGAAATCTC 
ATAACGGACT TGAATATGAT GCACAAGCAA AATGAAGATG CGTATCATAA TCCAGAGGCA 
CGAGCATATG AAGATAAAAG AGCTATAGTA TCTGTTGACC TAAGTTTGGC CTCACCAAGA 
CTTGAGAATA CAGATGAATC TACAAATAAA ATAGCAGGCT TTACATATAC ACAAACTTCC 
CCATTCGCTC GTGGTAATGT TTTTGGAGAA CCCCCAAGTC CAGAACAGCT TAGGAGACAA 
GAATCATATA AGAACTTCCT TCGTTTTCAA ATGGAGGAGA AAAGAAAAAG AGAAGAAGAA 
GAACGTGAAA AACGAAGGCT TGAAGAAGAA AGGGAAGAAA GAAGGTTAGC TGAGCAGAGG 
GCTAGAATAC AGAGAGAATA TGAAGAGGAA CTGGAAAAGA GGAGAAAGAA AGAAGAAGAG 
CAAAGGTTAA AAAATGAAGA ATTATACAGA TTAGCTGAAG AAAGAAGAAA AGAAGCTGAA 
AAGACAAAGA TAGAGGAAGA AGAAAAGGAT AAACAGAATA TTGAAACTGA AAAACATTTG 
ATTGAAGAGA AGATTTCTAG ATACCCTTCT CCTCTTATAC CAACTCTTCA GAATAAAGCA 
TTAGTAAAAG AAGAAAGGTC ACTTCTGACG GAGAGCCGTT TGTCTTATTA TACACATGAT 
GTCCCCAGAG TTCAGTCTCC TCCAGTACCA GCTAGAAGAA ACCAATTACG CGCATATGAA 
GAAAGAAAGA ATGTGATAAA TGAGCTTTCA GAGATGCGAA AGCAGCTCCG CAGTGAAGAG 
CGGCGACTAC AGGAGCAGTT GTTAAAAGTG CACAGTGATG ATGATGAAAT GCCAGTGAAA 
GGGAGAAAAG ATAAACAGAA TCTGGATGTA TTTGAAATGG CTAGACTTCG CATGCAAGCT 
CCAGTAAGGC GGCCATCTTC AAAGGATATT GCTGATCCTA TTAATCTACA AAATATCCGT 
GAATTTAATG AACTTAAATA CAAAGATTCA GAAACACGAT TAGAAACAAG ACATATGTAT 
CCTGATCCTC CCACCAATAA TGATACTCTG GACATTCAAC AGCTAGCATT GCTAAGAGAG 
CAAAAAAAGA AACTTAAAAA ATTGAGAAAC GCAGAAGGAT CCCTAGATTT TGATGATCCT 
GTATCTAGCA CTAGACCAAG AAACAAGGGA TTGGTTAGAG ATGAAGACTC AGATGGATTT 
ATGAAAACCT CACTCTTGGA ATCTGAGAGT GCTTTTATTG ATACAGATGG TGAAACCTAC 
CCAATTTTAG AAGAGCATAA CTTCAATATG AATATATCTC CTTCACCGCC TGTGTCTGCA 
AGGGAAAGGA GGAGAGAAAA GAAGAAGGAT GATGCTTCCC ATAGGGTGAC TCCACCACCA 
CAGTTTGACA ACAGCTCTCT GCACTCGAAC TCTAGTCTCA ATATAGATCA ATTAAAAGCC 
AGAAATGAAG AAAGGCTGCA AAAATTAAAT GAACTACATA AGAAGGCCAT TCATATAGCT 
GATGACATTT CACTGGGGAA TGGTGTTGAC ATCTTGAAGG AATTACCTCC TAAACATGGC 
AGAAGATCCA GTTCGGTTGA CTCTGTGGCA ACTGAGCCGT GGCTTAGACC TGGGACATCA 
GAAACCCTTA AAAGATTCAT GGCTGAGCAG TCAAGTCAAG CTAAACCGAC TTCTGAGAAG 
AGCATAACAT TCAATTGGCA GGGGCTGTCA ACTGCCCATG GTTAA