HYOU1 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	HYOU1
Entrez Gene ID	103060182
Full Name	hypoxia up-regulated 1
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007441491.1	XP_007441553.1	hypoxia up-regulated protein 1
XM_007441491.2	XP_007441553.1	hypoxia up-regulated protein 1

Pathways from BioSystems
Gene Ontology

The following HYOU1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HYOU1 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)
OPy17802	XM_007441491.2 Latest version!	Python bivittatus hypoxia up-regulated 1 (HYOU1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
View Old Accession Versions >>
OPy17802	XM_007441491.1	Python bivittatus hypoxia up-regulated 1 (HYOU1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

HYOU1 ( XM_007441491.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007441553.1 Python bivittatus hypoxia up-regulated 1 (HYOU1), mRNA.

Price & Availability↑

CloneID	OPy17802
Clone ID Related Accession (Same CDS sequence)	XM_007441491.1 , XM_007441491.2
Accession Version	XM_007441491.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2889bp) 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	hypoxia up-regulated protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006538061.1) 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 :: 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##

ATGTCAGTGG ACATGGGGAG CGAGTCCATG AAGATCGCCA TCGTCAAGCC CGGGGTGCCG 
ATGGAAATCG TCCTGAACAG GGAGTCTCGA AGGAAAACCC CAGTAGCCGT GACGCTGAAG 
GAGGACGAGC GCCTCTTTGG CGACAGCGCG GCGGGCATGG CCATCAAAAG TCCAAAGGTC 
GTCTTCCGGT ATTTCCAGGA TCTTCTGGGC AAGCGTTTTA ATAACCCCCA AGTGGCACGG 
TACCAGTCCT GGTTCCCAGA GCATCAGCTG GAGAAAGATG CAAGGAGGGA GACGGTCATC 
TTCAGACTCT CGGAAAAGTT GCAGTATTCT CCAGAAGAGA TCCTGGGCAT GGTCCTGAAC 
TATTCTCGGG CACTGGCTGA GGACTTTGCA GAGCAACCAG TCAAAGATGC TGTGATCACT 
GTCCCTGCCT ACTTCAACCA GGCAGAGAGG AGAGCCGTCC TGCACGCAGC AAAAATGGCT 
GATCTCAAGG TTCTGCAGCT CATCAATGAT AACACTGCTG TGGCTTTGAA CTATGGTGTG 
TTCCGGAGGA AAGACATCAA TGCTACAGCC CAGAACATCA TGTTCTACGA CATGGGGGCA 
GGTAGTACCG TGTGTACCAT TGTGACCTAC CAAACTCTGA AAACCAAGGA CTCAGGGATC 
CAACCTCAGT TGCAAATCAG AGGCGTTGGC TTTGATCGTA TGCTGGGGGG GCTGGGGATG 
GAGCTGCGCC TTCGTGACCA TCTGGCTAAG CTCTTCAATG AGCAGCACCC ACTCAAAGAC 
GTCCGGCGTA ATCTCCGTGC CATGGCCAAG CTGCTGAAGG AAGCCAATCG CGTGAAAACT 
GTGCTGAGTG CCAACCTGGA CCATGTGGCC CAGGTTGAAG GGTTATTAGA TGACATCGAT 
TTCAAGGCCA AGGTTTCCCG ACAGGAGTTT GAGAATCTGT GCTCTGACTT GTTCGAGAGG 
GTGGCAGGAC CCGTCCAACA GGCCCTTAGC AGCGCTGAGA TGAGTCTGAA TGAGATTGAC 
CAAGTGATCC TCGTTGGTGG GGCTACTCGT GTGCCAAAGG TGCAAGAATT TCTACTAAAA 
GCAGTTGGCA AGGAGGAGCT GGGGAAGAAC ATTAACGCAG ATGAGGCTGC CGCGATGGGT 
GCCGTCTACC AGGCAGCTGC TCTGAGTAAA GCCTTCAAGG TGAAGCCTTT CATTGTCCGG 
GACGCAGCCA TGTACCCAAT CCAGGTTGAG TTCACTCGCG AAGTCGAAGA GGAGGATAAG 
TCTAAGAGTT TGAAGCACAA CCGGCGCATC CTCTTCCAGC GCATGGCTCC GTATCCTCAG 
CGCAAGGTCA TCACCTTCAA CCGGTACACA GATGACTTTG AATTCCAGGT CAACTATGCT 
GATGTGGGTT TCCTGAGTGA GAGCGACTTA CGAGTTTTTG GGTCCCTGAA TCTCACAAAG 
GTGAAGCTGC ATGGTGTGGG CGAGAGCTTC AAGAAACACC TGGATTATGA GTCAAAGGGC 
ATTAAGGCTC ATTTCAATAT GGATGAGAGT GGCGTGCTGA GTCTTGATCG TGTGGAATCT 
GTGTTTGAGG CAGTGGTAGA GGACAAACCA GAAGAGGAAT CCACACTCAC CAAACTTGGG 
AACACAATTT CCAGCCTGTT TGGAGGAGGC AGTCCTGGGC CAGAAGCACT TGAGAATGCG 
ACTGAGACTG TTCACGAGGA AGAGGAGGGT CAAGCAGAAG TGGGTAGAGA AGATCAGAAG 
GACCACGCTG GGCCTGCTAC TGAGGAGAGC AATGAGCAGC CGCTCTCAGC TCAGGAGAAA 
CCTGCTGGAG AAGTTTCTGC CACTAAGGAC CAGCAGGAGG AGGGTGGAGA AAAGGGAAGC 
CCCAAGGAAG CCACAGAGAA ACCAGAGATG GGAAAGGGGG AGGAGCCTGC GAAAAGTCCT 
GAGAGCAATG GGAAAGCAGC AGCAGAGCAG CTGGAGGAGG AGAAGAAAGC CAAGAGGCAG 
AGGCTAGTGG AGGAGATCGC TGTGGAGCTT GATGTGCATG ATGTGCTGGA GCTGTTGCCC 
GAGGAGCTGC AAAGCTCCAG CCAGAAGTTG CAAGATTTGA CGGAAAGGGA CCTGGAGAAG 
CAGGAGAGGG AAAAATCCGC CAACAGCCTC GAGGCCTTCA TTTTTGAGAC CCAGGACAAG 
CTCTATCAGG AGGAGTACCA GTTTGTTTCA TCTGAAGAAG AAAGGGAGGA AATATCTAGG 
AAACTGAGTG AAGCTTCCAG CTGGATGGAA GATGAGGGTT ACATAGCCCC TACAAAGGAA 
CTGAAGGAGA GGCTTTCTGA GCTGAGGAAG TTGTGCCGGA GCCTCTTCTT CCGGGTGGAG 
GAGAGACGGA AGTGGCCAGA GCGCCTTGCT GCCCTGGAAA GCCTGCTGAA TCACTCCAGT 
ATCTTCCTCA GGGGAGCGCA GATGATCCCG GAGGCCGATC AGATATTCAC AGAGATAGAG 
CTGAGCACTT TGGGGAAAGC CATAAACGAG ACAGAGCTGT GGAAGAAGGA GACCCTGGCC 
GAGCAGAGCA AGCTGCCCCC CACTGCCAAG CCCATCCTGC TTTCCAAAGA CATTGAGATG 
AAAATCGCAG GCTTGGATCG GGAGGTGCAG TATCTCCTGA ATAAGGCCAA GTTCACCAAG 
CCCAAGAAGA GAGAGAACGC CACGAAAACA CAAGCAAACA GGAACACCAC TGGATCTCCA 
GAGAATGGCA AGACCATTCC TCCCAAGGAG GACAATCGGG AAGATCAGCC GGAAGATGCC 
AGCCCAGTCA AAGAACCACC TGCAGAGGAA GAAATGCCAC TTGATAATGA ATTGGACCCA 
GATGGAGGCC CGCAAACAGA TAAGAATCCA GAACCAAAAG AAGAGACCAG AACTACTGAT 
GAATTATAA

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

RefSeq	XP_007441553.1
CDS	15..2903
Translation	MSVDMGSESMKIAIVKPGVPMEIVLNRESRRKTPVAVTLKEDERLFGDSAAGMAIKSPKVVFRYFQDLLGKRFNNPQVARYQSWFPEHQLEKDARRETVIFRLSEKLQYSPEEILGMVLNYSRALAEDFAEQPVKDAVITVPAYFNQAERRAVLHAAKMADLKVLQLINDNTAVALNYGVFRRKDINATAQNIMFYDMGAGSTVCTIVTYQTLKTKDSGIQPQLQIRGVGFDRMLGGLGMELRLRDHLAKLFNEQHPLKDVRRNLRAMAKLLKEANRVKTVLSANLDHVAQVEGLLDDIDFKAKVSRQEFENLCSDLFERVAGPVQQALSSAEMSLNEIDQVILVGGATRVPKVQEFLLKAVGKEELGKNINADEAAAMGAVYQAAALSKAFKVKPFIVRDAAMYPIQVEFTREVEEEDKSKSLKHNRRILFQRMAPYPQRKVITFNRYTDDFEFQVNYADVGFLSESDLRVFGSLNLTKVKLHGVGESFKKHLDYESKGIKAHFNMDESGVLSLDRVESVFEAVVEDKPEEESTLTKLGNTISSLFGGGSPGPEALENATETVHEEEEGQAEVGREDQKDHAGPATEESNEQPLSAQEKPAGEVSATKDQQEEGGEKGSPKEATEKPEMGKGEEPAKSPESNGKAAAEQLEEEKKAKRQRLVEEIAVELDVHDVLELLPEELQSSSQKLQDLTERDLEKQEREKSANSLEAFIFETQDKLYQEEYQFVSSEEEREEISRKLSEASSWMEDEGYIAPTKELKERLSELRKLCRSLFFRVEERRKWPERLAALESLLNHSSIFLRGAQMIPEADQIFTEIELSTLGKAINETELWKKETLAEQSKLPPTAKPILLSKDIEMKIAGLDREVQYLLNKAKFTKPKKRENATKTQANRNTTGSPENGKTIPPKEDNREDQPEDASPVKEPPAEEEMPLDNELDPDGGPQTDKNPEPKEETRTTDEL

Target ORF information:

RefSeq Version	XM_007441491.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus hypoxia up-regulated 1 (HYOU1), mRNA.

Target ORF information:

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

XM_007441491.1

ORF Insert Sequence:

ATGTCAGTGG ACATGGGGAG CGAGTCCATG AAGATCGCCA TCGTCAAGCC CGGGGTGCCG 
ATGGAAATCG TCCTGAACAG GGAGTCTCGA AGGAAAACCC CAGTAGCCGT GACGCTGAAG 
GAGGACGAGC GCCTCTTTGG CGACAGCGCG GCGGGCATGG CCATCAAAAG TCCAAAGGTC 
GTCTTCCGGT ATTTCCAGGA TCTTCTGGGC AAGCGTTTTA ATAACCCCCA AGTGGCACGG 
TACCAGTCCT GGTTCCCAGA GCATCAGCTG GAGAAAGATG CAAGGAGGGA GACGGTCATC 
TTCAGACTCT CGGAAAAGTT GCAGTATTCT CCAGAAGAGA TCCTGGGCAT GGTCCTGAAC 
TATTCTCGGG CACTGGCTGA GGACTTTGCA GAGCAACCAG TCAAAGATGC TGTGATCACT 
GTCCCTGCCT ACTTCAACCA GGCAGAGAGG AGAGCCGTCC TGCACGCAGC AAAAATGGCT 
GATCTCAAGG TTCTGCAGCT CATCAATGAT AACACTGCTG TGGCTTTGAA CTATGGTGTG 
TTCCGGAGGA AAGACATCAA TGCTACAGCC CAGAACATCA TGTTCTACGA CATGGGGGCA 
GGTAGTACCG TGTGTACCAT TGTGACCTAC CAAACTCTGA AAACCAAGGA CTCAGGGATC 
CAACCTCAGT TGCAAATCAG AGGCGTTGGC TTTGATCGTA TGCTGGGGGG GCTGGGGATG 
GAGCTGCGCC TTCGTGACCA TCTGGCTAAG CTCTTCAATG AGCAGCACCC ACTCAAAGAC 
GTCCGGCGTA ATCTCCGTGC CATGGCCAAG CTGCTGAAGG AAGCCAATCG CGTGAAAACT 
GTGCTGAGTG CCAACCTGGA CCATGTGGCC CAGGTTGAAG GGTTATTAGA TGACATCGAT 
TTCAAGGCCA AGGTTTCCCG ACAGGAGTTT GAGAATCTGT GCTCTGACTT GTTCGAGAGG 
GTGGCAGGAC CCGTCCAACA GGCCCTTAGC AGCGCTGAGA TGAGTCTGAA TGAGATTGAC 
CAAGTGATCC TCGTTGGTGG GGCTACTCGT GTGCCAAAGG TGCAAGAATT TCTACTAAAA 
GCAGTTGGCA AGGAGGAGCT GGGGAAGAAC ATTAACGCAG ATGAGGCTGC CGCGATGGGT 
GCCGTCTACC AGGCAGCTGC TCTGAGTAAA GCCTTCAAGG TGAAGCCTTT CATTGTCCGG 
GACGCAGCCA TGTACCCAAT CCAGGTTGAG TTCACTCGCG AAGTCGAAGA GGAGGATAAG 
TCTAAGAGTT TGAAGCACAA CCGGCGCATC CTCTTCCAGC GCATGGCTCC GTATCCTCAG 
CGCAAGGTCA TCACCTTCAA CCGGTACACA GATGACTTTG AATTCCAGGT CAACTATGCT 
GATGTGGGTT TCCTGAGTGA GAGCGACTTA CGAGTTTTTG GGTCCCTGAA TCTCACAAAG 
GTGAAGCTGC ATGGTGTGGG CGAGAGCTTC AAGAAACACC TGGATTATGA GTCAAAGGGC 
ATTAAGGCTC ATTTCAATAT GGATGAGAGT GGCGTGCTGA GTCTTGATCG TGTGGAATCT 
GTGTTTGAGG CAGTGGTAGA GGACAAACCA GAAGAGGAAT CCACACTCAC CAAACTTGGG 
AACACAATTT CCAGCCTGTT TGGAGGAGGC AGTCCTGGGC CAGAAGCACT TGAGAATGCG 
ACTGAGACTG TTCACGAGGA AGAGGAGGGT CAAGCAGAAG TGGGTAGAGA AGATCAGAAG 
GACCACGCTG GGCCTGCTAC TGAGGAGAGC AATGAGCAGC CGCTCTCAGC TCAGGAGAAA 
CCTGCTGGAG AAGTTTCTGC CACTAAGGAC CAGCAGGAGG AGGGTGGAGA AAAGGGAAGC 
CCCAAGGAAG CCACAGAGAA ACCAGAGATG GGAAAGGGGG AGGAGCCTGC GAAAAGTCCT 
GAGAGCAATG GGAAAGCAGC AGCAGAGCAG CTGGAGGAGG AGAAGAAAGC CAAGAGGCAG 
AGGCTAGTGG AGGAGATCGC TGTGGAGCTT GATGTGCATG ATGTGCTGGA GCTGTTGCCC 
GAGGAGCTGC AAAGCTCCAG CCAGAAGTTG CAAGATTTGA CGGAAAGGGA CCTGGAGAAG 
CAGGAGAGGG AAAAATCCGC CAACAGCCTC GAGGCCTTCA TTTTTGAGAC CCAGGACAAG 
CTCTATCAGG AGGAGTACCA GTTTGTTTCA TCTGAAGAAG AAAGGGAGGA AATATCTAGG 
AAACTGAGTG AAGCTTCCAG CTGGATGGAA GATGAGGGTT ACATAGCCCC TACAAAGGAA 
CTGAAGGAGA GGCTTTCTGA GCTGAGGAAG TTGTGCCGGA GCCTCTTCTT CCGGGTGGAG 
GAGAGACGGA AGTGGCCAGA GCGCCTTGCT GCCCTGGAAA GCCTGCTGAA TCACTCCAGT 
ATCTTCCTCA GGGGAGCGCA GATGATCCCG GAGGCCGATC AGATATTCAC AGAGATAGAG 
CTGAGCACTT TGGGGAAAGC CATAAACGAG ACAGAGCTGT GGAAGAAGGA GACCCTGGCC 
GAGCAGAGCA AGCTGCCCCC CACTGCCAAG CCCATCCTGC TTTCCAAAGA CATTGAGATG 
AAAATCGCAG GCTTGGATCG GGAGGTGCAG TATCTCCTGA ATAAGGCCAA GTTCACCAAG 
CCCAAGAAGA GAGAGAACGC CACGAAAACA CAAGCAAACA GGAACACCAC TGGATCTCCA 
GAGAATGGCA AGACCATTCC TCCCAAGGAG GACAATCGGG AAGATCAGCC GGAAGATGCC 
AGCCCAGTCA AAGAACCACC TGCAGAGGAA GAAATGCCAC TTGATAATGA ATTGGACCCA 
GATGGAGGCC CGCAAACAGA TAAGAATCCA GAACCAAAAG AAGAGACCAG AACTACTGAT 
GAATTATAA

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

HYOU1 ( XM_007441491.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007441553.1 Python bivittatus hypoxia up-regulated 1 (HYOU1), mRNA.

Price & Availability↑

CloneID	OPy17802
Clone ID Related Accession (Same CDS sequence)	XM_007441491.1 , XM_007441491.2
Accession Version	XM_007441491.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2889bp) 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	hypoxia up-regulated protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006538061.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_007441491.1. ##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##

ATGTCAGTGG ACATGGGGAG CGAGTCCATG AAGATCGCCA TCGTCAAGCC CGGGGTGCCG 
ATGGAAATCG TCCTGAACAG GGAGTCTCGA AGGAAAACCC CAGTAGCCGT GACGCTGAAG 
GAGGACGAGC GCCTCTTTGG CGACAGCGCG GCGGGCATGG CCATCAAAAG TCCAAAGGTC 
GTCTTCCGGT ATTTCCAGGA TCTTCTGGGC AAGCGTTTTA ATAACCCCCA AGTGGCACGG 
TACCAGTCCT GGTTCCCAGA GCATCAGCTG GAGAAAGATG CAAGGAGGGA GACGGTCATC 
TTCAGACTCT CGGAAAAGTT GCAGTATTCT CCAGAAGAGA TCCTGGGCAT GGTCCTGAAC 
TATTCTCGGG CACTGGCTGA GGACTTTGCA GAGCAACCAG TCAAAGATGC TGTGATCACT 
GTCCCTGCCT ACTTCAACCA GGCAGAGAGG AGAGCCGTCC TGCACGCAGC AAAAATGGCT 
GATCTCAAGG TTCTGCAGCT CATCAATGAT AACACTGCTG TGGCTTTGAA CTATGGTGTG 
TTCCGGAGGA AAGACATCAA TGCTACAGCC CAGAACATCA TGTTCTACGA CATGGGGGCA 
GGTAGTACCG TGTGTACCAT TGTGACCTAC CAAACTCTGA AAACCAAGGA CTCAGGGATC 
CAACCTCAGT TGCAAATCAG AGGCGTTGGC TTTGATCGTA TGCTGGGGGG GCTGGGGATG 
GAGCTGCGCC TTCGTGACCA TCTGGCTAAG CTCTTCAATG AGCAGCACCC ACTCAAAGAC 
GTCCGGCGTA ATCTCCGTGC CATGGCCAAG CTGCTGAAGG AAGCCAATCG CGTGAAAACT 
GTGCTGAGTG CCAACCTGGA CCATGTGGCC CAGGTTGAAG GGTTATTAGA TGACATCGAT 
TTCAAGGCCA AGGTTTCCCG ACAGGAGTTT GAGAATCTGT GCTCTGACTT GTTCGAGAGG 
GTGGCAGGAC CCGTCCAACA GGCCCTTAGC AGCGCTGAGA TGAGTCTGAA TGAGATTGAC 
CAAGTGATCC TCGTTGGTGG GGCTACTCGT GTGCCAAAGG TGCAAGAATT TCTACTAAAA 
GCAGTTGGCA AGGAGGAGCT GGGGAAGAAC ATTAACGCAG ATGAGGCTGC CGCGATGGGT 
GCCGTCTACC AGGCAGCTGC TCTGAGTAAA GCCTTCAAGG TGAAGCCTTT CATTGTCCGG 
GACGCAGCCA TGTACCCAAT CCAGGTTGAG TTCACTCGCG AAGTCGAAGA GGAGGATAAG 
TCTAAGAGTT TGAAGCACAA CCGGCGCATC CTCTTCCAGC GCATGGCTCC GTATCCTCAG 
CGCAAGGTCA TCACCTTCAA CCGGTACACA GATGACTTTG AATTCCAGGT CAACTATGCT 
GATGTGGGTT TCCTGAGTGA GAGCGACTTA CGAGTTTTTG GGTCCCTGAA TCTCACAAAG 
GTGAAGCTGC ATGGTGTGGG CGAGAGCTTC AAGAAACACC TGGATTATGA GTCAAAGGGC 
ATTAAGGCTC ATTTCAATAT GGATGAGAGT GGCGTGCTGA GTCTTGATCG TGTGGAATCT 
GTGTTTGAGG CAGTGGTAGA GGACAAACCA GAAGAGGAAT CCACACTCAC CAAACTTGGG 
AACACAATTT CCAGCCTGTT TGGAGGAGGC AGTCCTGGGC CAGAAGCACT TGAGAATGCG 
ACTGAGACTG TTCACGAGGA AGAGGAGGGT CAAGCAGAAG TGGGTAGAGA AGATCAGAAG 
GACCACGCTG GGCCTGCTAC TGAGGAGAGC AATGAGCAGC CGCTCTCAGC TCAGGAGAAA 
CCTGCTGGAG AAGTTTCTGC CACTAAGGAC CAGCAGGAGG AGGGTGGAGA AAAGGGAAGC 
CCCAAGGAAG CCACAGAGAA ACCAGAGATG GGAAAGGGGG AGGAGCCTGC GAAAAGTCCT 
GAGAGCAATG GGAAAGCAGC AGCAGAGCAG CTGGAGGAGG AGAAGAAAGC CAAGAGGCAG 
AGGCTAGTGG AGGAGATCGC TGTGGAGCTT GATGTGCATG ATGTGCTGGA GCTGTTGCCC 
GAGGAGCTGC AAAGCTCCAG CCAGAAGTTG CAAGATTTGA CGGAAAGGGA CCTGGAGAAG 
CAGGAGAGGG AAAAATCCGC CAACAGCCTC GAGGCCTTCA TTTTTGAGAC CCAGGACAAG 
CTCTATCAGG AGGAGTACCA GTTTGTTTCA TCTGAAGAAG AAAGGGAGGA AATATCTAGG 
AAACTGAGTG AAGCTTCCAG CTGGATGGAA GATGAGGGTT ACATAGCCCC TACAAAGGAA 
CTGAAGGAGA GGCTTTCTGA GCTGAGGAAG TTGTGCCGGA GCCTCTTCTT CCGGGTGGAG 
GAGAGACGGA AGTGGCCAGA GCGCCTTGCT GCCCTGGAAA GCCTGCTGAA TCACTCCAGT 
ATCTTCCTCA GGGGAGCGCA GATGATCCCG GAGGCCGATC AGATATTCAC AGAGATAGAG 
CTGAGCACTT TGGGGAAAGC CATAAACGAG ACAGAGCTGT GGAAGAAGGA GACCCTGGCC 
GAGCAGAGCA AGCTGCCCCC CACTGCCAAG CCCATCCTGC TTTCCAAAGA CATTGAGATG 
AAAATCGCAG GCTTGGATCG GGAGGTGCAG TATCTCCTGA ATAAGGCCAA GTTCACCAAG 
CCCAAGAAGA GAGAGAACGC CACGAAAACA CAAGCAAACA GGAACACCAC TGGATCTCCA 
GAGAATGGCA AGACCATTCC TCCCAAGGAG GACAATCGGG AAGATCAGCC GGAAGATGCC 
AGCCCAGTCA AAGAACCACC TGCAGAGGAA GAAATGCCAC TTGATAATGA ATTGGACCCA 
GATGGAGGCC CGCAAACAGA TAAGAATCCA GAACCAAAAG AAGAGACCAG AACTACTGAT 
GAATTATAA

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

RefSeq	XP_007441553.1
CDS	39..2927
Translation	MSVDMGSESMKIAIVKPGVPMEIVLNRESRRKTPVAVTLKEDERLFGDSAAGMAIKSPKVVFRYFQDLLGKRFNNPQVARYQSWFPEHQLEKDARRETVIFRLSEKLQYSPEEILGMVLNYSRALAEDFAEQPVKDAVITVPAYFNQAERRAVLHAAKMADLKVLQLINDNTAVALNYGVFRRKDINATAQNIMFYDMGAGSTVCTIVTYQTLKTKDSGIQPQLQIRGVGFDRMLGGLGMELRLRDHLAKLFNEQHPLKDVRRNLRAMAKLLKEANRVKTVLSANLDHVAQVEGLLDDIDFKAKVSRQEFENLCSDLFERVAGPVQQALSSAEMSLNEIDQVILVGGATRVPKVQEFLLKAVGKEELGKNINADEAAAMGAVYQAAALSKAFKVKPFIVRDAAMYPIQVEFTREVEEEDKSKSLKHNRRILFQRMAPYPQRKVITFNRYTDDFEFQVNYADVGFLSESDLRVFGSLNLTKVKLHGVGESFKKHLDYESKGIKAHFNMDESGVLSLDRVESVFEAVVEDKPEEESTLTKLGNTISSLFGGGSPGPEALENATETVHEEEEGQAEVGREDQKDHAGPATEESNEQPLSAQEKPAGEVSATKDQQEEGGEKGSPKEATEKPEMGKGEEPAKSPESNGKAAAEQLEEEKKAKRQRLVEEIAVELDVHDVLELLPEELQSSSQKLQDLTERDLEKQEREKSANSLEAFIFETQDKLYQEEYQFVSSEEEREEISRKLSEASSWMEDEGYIAPTKELKERLSELRKLCRSLFFRVEERRKWPERLAALESLLNHSSIFLRGAQMIPEADQIFTEIELSTLGKAINETELWKKETLAEQSKLPPTAKPILLSKDIEMKIAGLDREVQYLLNKAKFTKPKKRENATKTQANRNTTGSPENGKTIPPKEDNREDQPEDASPVKEPPAEEEMPLDNELDPDGGPQTDKNPEPKEETRTTDEL

Target ORF information:

RefSeq Version	XM_007441491.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus hypoxia up-regulated 1 (HYOU1), mRNA.

Target ORF information:

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

XM_007441491.2

ORF Insert Sequence:

ATGTCAGTGG ACATGGGGAG CGAGTCCATG AAGATCGCCA TCGTCAAGCC CGGGGTGCCG 
ATGGAAATCG TCCTGAACAG GGAGTCTCGA AGGAAAACCC CAGTAGCCGT GACGCTGAAG 
GAGGACGAGC GCCTCTTTGG CGACAGCGCG GCGGGCATGG CCATCAAAAG TCCAAAGGTC 
GTCTTCCGGT ATTTCCAGGA TCTTCTGGGC AAGCGTTTTA ATAACCCCCA AGTGGCACGG 
TACCAGTCCT GGTTCCCAGA GCATCAGCTG GAGAAAGATG CAAGGAGGGA GACGGTCATC 
TTCAGACTCT CGGAAAAGTT GCAGTATTCT CCAGAAGAGA TCCTGGGCAT GGTCCTGAAC 
TATTCTCGGG CACTGGCTGA GGACTTTGCA GAGCAACCAG TCAAAGATGC TGTGATCACT 
GTCCCTGCCT ACTTCAACCA GGCAGAGAGG AGAGCCGTCC TGCACGCAGC AAAAATGGCT 
GATCTCAAGG TTCTGCAGCT CATCAATGAT AACACTGCTG TGGCTTTGAA CTATGGTGTG 
TTCCGGAGGA AAGACATCAA TGCTACAGCC CAGAACATCA TGTTCTACGA CATGGGGGCA 
GGTAGTACCG TGTGTACCAT TGTGACCTAC CAAACTCTGA AAACCAAGGA CTCAGGGATC 
CAACCTCAGT TGCAAATCAG AGGCGTTGGC TTTGATCGTA TGCTGGGGGG GCTGGGGATG 
GAGCTGCGCC TTCGTGACCA TCTGGCTAAG CTCTTCAATG AGCAGCACCC ACTCAAAGAC 
GTCCGGCGTA ATCTCCGTGC CATGGCCAAG CTGCTGAAGG AAGCCAATCG CGTGAAAACT 
GTGCTGAGTG CCAACCTGGA CCATGTGGCC CAGGTTGAAG GGTTATTAGA TGACATCGAT 
TTCAAGGCCA AGGTTTCCCG ACAGGAGTTT GAGAATCTGT GCTCTGACTT GTTCGAGAGG 
GTGGCAGGAC CCGTCCAACA GGCCCTTAGC AGCGCTGAGA TGAGTCTGAA TGAGATTGAC 
CAAGTGATCC TCGTTGGTGG GGCTACTCGT GTGCCAAAGG TGCAAGAATT TCTACTAAAA 
GCAGTTGGCA AGGAGGAGCT GGGGAAGAAC ATTAACGCAG ATGAGGCTGC CGCGATGGGT 
GCCGTCTACC AGGCAGCTGC TCTGAGTAAA GCCTTCAAGG TGAAGCCTTT CATTGTCCGG 
GACGCAGCCA TGTACCCAAT CCAGGTTGAG TTCACTCGCG AAGTCGAAGA GGAGGATAAG 
TCTAAGAGTT TGAAGCACAA CCGGCGCATC CTCTTCCAGC GCATGGCTCC GTATCCTCAG 
CGCAAGGTCA TCACCTTCAA CCGGTACACA GATGACTTTG AATTCCAGGT CAACTATGCT 
GATGTGGGTT TCCTGAGTGA GAGCGACTTA CGAGTTTTTG GGTCCCTGAA TCTCACAAAG 
GTGAAGCTGC ATGGTGTGGG CGAGAGCTTC AAGAAACACC TGGATTATGA GTCAAAGGGC 
ATTAAGGCTC ATTTCAATAT GGATGAGAGT GGCGTGCTGA GTCTTGATCG TGTGGAATCT 
GTGTTTGAGG CAGTGGTAGA GGACAAACCA GAAGAGGAAT CCACACTCAC CAAACTTGGG 
AACACAATTT CCAGCCTGTT TGGAGGAGGC AGTCCTGGGC CAGAAGCACT TGAGAATGCG 
ACTGAGACTG TTCACGAGGA AGAGGAGGGT CAAGCAGAAG TGGGTAGAGA AGATCAGAAG 
GACCACGCTG GGCCTGCTAC TGAGGAGAGC AATGAGCAGC CGCTCTCAGC TCAGGAGAAA 
CCTGCTGGAG AAGTTTCTGC CACTAAGGAC CAGCAGGAGG AGGGTGGAGA AAAGGGAAGC 
CCCAAGGAAG CCACAGAGAA ACCAGAGATG GGAAAGGGGG AGGAGCCTGC GAAAAGTCCT 
GAGAGCAATG GGAAAGCAGC AGCAGAGCAG CTGGAGGAGG AGAAGAAAGC CAAGAGGCAG 
AGGCTAGTGG AGGAGATCGC TGTGGAGCTT GATGTGCATG ATGTGCTGGA GCTGTTGCCC 
GAGGAGCTGC AAAGCTCCAG CCAGAAGTTG CAAGATTTGA CGGAAAGGGA CCTGGAGAAG 
CAGGAGAGGG AAAAATCCGC CAACAGCCTC GAGGCCTTCA TTTTTGAGAC CCAGGACAAG 
CTCTATCAGG AGGAGTACCA GTTTGTTTCA TCTGAAGAAG AAAGGGAGGA AATATCTAGG 
AAACTGAGTG AAGCTTCCAG CTGGATGGAA GATGAGGGTT ACATAGCCCC TACAAAGGAA 
CTGAAGGAGA GGCTTTCTGA GCTGAGGAAG TTGTGCCGGA GCCTCTTCTT CCGGGTGGAG 
GAGAGACGGA AGTGGCCAGA GCGCCTTGCT GCCCTGGAAA GCCTGCTGAA TCACTCCAGT 
ATCTTCCTCA GGGGAGCGCA GATGATCCCG GAGGCCGATC AGATATTCAC AGAGATAGAG 
CTGAGCACTT TGGGGAAAGC CATAAACGAG ACAGAGCTGT GGAAGAAGGA GACCCTGGCC 
GAGCAGAGCA AGCTGCCCCC CACTGCCAAG CCCATCCTGC TTTCCAAAGA CATTGAGATG 
AAAATCGCAG GCTTGGATCG GGAGGTGCAG TATCTCCTGA ATAAGGCCAA GTTCACCAAG 
CCCAAGAAGA GAGAGAACGC CACGAAAACA CAAGCAAACA GGAACACCAC TGGATCTCCA 
GAGAATGGCA AGACCATTCC TCCCAAGGAG GACAATCGGG AAGATCAGCC GGAAGATGCC 
AGCCCAGTCA AAGAACCACC TGCAGAGGAA GAAATGCCAC TTGATAATGA ATTGGACCCA 
GATGGAGGCC CGCAAACAGA TAAGAATCCA GAACCAAAAG AAGAGACCAG AACTACTGAT 
GAATTATAA