HMA5.1 cDNA ORF clone, Cucumis sativus(cucumber)

Gene
Clones
gRNAs

Summary

Gene Symbol	HMA5.1
Entrez Gene ID	101220448
Full Name	probable copper-transporting ATPase HMA5
Gene Type	protein-coding
Organism	Cucumis sativus(cucumber)

mRNA and Protein(s)

mRNA	Protein	Name
NM_001305723.1	NP_001292652.1	probable copper-transporting ATPase HMA5

Pathways from BioSystems
Gene Ontology

The following HMA5.1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HMA5.1 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
OCu36543	NM_001305723.1 Latest version!	Cucumis sativus probable copper-transporting ATPase HMA5 (HMA5.1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

HMA5.1 ( NM_001305723.1 ) cDNA ORF clone, Cucumis sativus(cucumber) -> NP_001292652.1 Cucumis sativus probable copper-transporting ATPase HMA5 (HMA5.1), mRNA.

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CloneID	OCu36543
Clone ID Related Accession (Same CDS sequence)	NM_001305723.1
Accession Version	NM_001305723.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2922bp) 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	2019-12-21
Organism	Cucumis sativus(cucumber)
Product	probable copper-transporting ATPase HMA5
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from KJ818254.1. On Mar 30, 2015 this sequence version replaced XM_004143866.2. ##Evidence-Data-START## Transcript exon combination :: KJ818254.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN04457427 [ECO:0000348] ##Evidence-Data-END##

ATGTTGAAGT TACCGCGGTG GAACCGATCG ACGGCGGCGG CAACAGAGGA GATTACGAAA 
AATGCGACGG CTATTAACGA CGACGAGGCC ACGACGGCGG CGAAGGCGGT GGTATGCGTT 
AGCGGCATGA GTTGCTCTGC ATGTGCTGTT TCTGTTGAGA ATTCCATCAA ACACCTTCCA 
GGCATTCTCG ATGCTGCCGT CGACTTCTTG AACGATAGGG CTCAAATCCT CTATCTTCCC 
AATCTCACCG ACGTAGAGAC AATACTTCAA GCAATTGAAA ATGCTGGATT TCAAGCTACA 
ATATCAAAGG ACGGGACTGA TCATCGATCG AGAGAAGTAT GTCGAATCCG AGTAAATGGA 
ATGGGCTGCA ATTCTTGCTC TTCCATGGTA GAATCAGTTT TGGAAGCAAT GTATGGAGTA 
CAAAAGGCTC ACATTGCTTT GTTGAATGAG GAAGCAGAAG TTCATTATGA TCCAAAGGTT 
GTTAATTGCA ATCAGTTCAT TATAGCCATA CAAGACATTG GATTTGAAGC ATTACCTATC 
ACCATTGGGG AACACGTTAC CAAGATTGAC CTTAAGATTG ATGGTATGCA CAATGAAAAC 
TCAACAACAA AAGTTAAAGA GTCCCTCGAA TTGGTCCTGG GAATTGACGA TGTCAATATC 
GATACGACAT TAAGCAAAGT TACTATATCA TATAGGCCTG ATATAATAGG ACCTAGAACT 
TTCATTGAAA TACTTGAGTC TATCAAATCT GAGCATTTCA AAGTGACGAT ATATCCCGAA 
GATACGGAAC GAGAAACTCG TAAGCAGAAA GAAATTAAAC AACATTATAA ATACCTTATA 
TGGAGCTCTG CTCTTTCTAT ACCTGTTTTC TTAACTTCTA TGGTTTTCAT GTATATACCT 
GGAATCAAAC AGACTTTAGA TATCAAAGTT GTCAATATGA TGAACGTCGG ACATATTATC 
AGATGGAATT TATCAACTCC GGTGCAGTTC GTCGTAGGTT CGAGATTCTA CTTTGGATCG 
TACAAAGCAT TGCGTCGAGG TTCTGCCAAC ATGGATGTAT TGGTTACTTT AGGAACAAAT 
GCAGCTTATT TCTATTCTGT TTATATAGTG TTAAGAGCAG CTACGTCTCC TACTTTCAAT 
GGTACTGATT TCTTTGAAAC CAGTTCAATG TTAATTACAT TCATTCTACT TGGTAAGTAT 
TTGGAGGTTT TAGCAAAAGG AAAGACCTCT GATGCTATTG CCAAGCTTAA ACACTTGGCT 
CCCGAGACGG CAACACTCTT GACTTTAGAT CTTCATGGAA ATGTGATCAA TGAAGCGGAA 
ATCAGTAGTG AGTTGATCCA AAAGAATGAT GTTATTAAGA TTACACCAGG TGCTAGAGTA 
GCTTCTGATG GTCTTGTCGT ATGGGGAGAA AGCCATGTTA ACGAGAGTAT GATCACAGGA 
GAAGCGAAAC CAGTAACGAA AAGGACGGGG GATAAGGTGA TAGGAGGAAC TGTGAATGAA 
AATGGGGTAT TGCATATAAA GGCAACTCAT GTTGGATCAG AGAGTTCTTT ATCGCAAATC 
GTTCGACTCG TCGAATCATC TCAATTGGCA AAAGCTCCTA TTCAAAAATT TGCTGACCAT 
ATCTCTAAAT ATTTTGTGCC TTTGGTAATT TTACTTTCTT TTCTCACCTG GATTGCTTGG 
TTTTTGGCTG GAAAGTTGCA TCTCTATCCT AAATCATGGT TGCCTTCTTC AATGGACAGT 
TTCGAGTTGG CTCTCCAATT TGGGATTTCT GTTATGGTCA TAGCTTGCCC TTGTGCTCTC 
GGCCTTGCCA CCCCGACTGC CATGATGGTC GGTACCGGCG TAGGTGCATC TCAAGGTGTA 
CTAATAAAAG GAGGTCGAGC ATTAGAATTT GCTCATAAGG TGAGTTGCAT TGTGTTTGAT 
AAGACAGGAA CTCTAACAAT TGGAAAGCCA GTGGTTGTAA ATGTAAAACT TATGAACACT 
ACAGTACTTG AAGAACTACT TGAACTCACT GCAGCAACCG AGGTTAACAG TGAGCACCCA 
GTAGCCAAGG CCATTGTTGA ATATGCCAAA CAATTCAAGA AAGAACAAAA TCCCCTTTGG 
CCAGAAGCTC AAGAATTCAT ATCCATTCCT GGCCATGGAG TAGAAGCCAT AGTAAAAAAC 
AAGAAAATAA TAGTTGGAAA CAAGAGCTTG ATGATGAACA ATGACATCGA AATCCCAAGG 
GAAGTGGAAA TGTTCCTTGT AGATGCCGAA GGTATGGCGC AAACTGCGGT CTTAGTGGCG 
ATAGATCGAA TGGTGTCAGG AGTTGTCACA GTGTCGGATC CGTTGAAACC GGGTACCAAA 
GAAGTTATCT CCATTCTCAA GGCTATGGAA GTGAAGAGCA TCATGATAAC AGGTGACAAC 
TGGGGCACTG CAAATTCCAT TGCTAAAGAA GTTGGAATTG AAACAATCAT TGCTGAGGCT 
AAGCCTCAAC AAAAAGCAGA AGAAGTGAAG AATCTTCAGA CGGCGGGACA CACAGTGGCA 
ATGGTCGGAG ACGGGATCAA CGATTCACCT GCTCTAGTAG CAGCAGATGT CGGGATGGCA 
ATCGGAGCCG GCACTGACAT TGCAATTGAG GCAGCAGACA TTGTTCTAAT GAAAAATGAC 
TTGCAAGATG TTATAACTGC CATTCATCTT TCAAGAAAAA CCTTTGCTAA AATTCGTTTG 
AATTACATTT GGGCTTTAGG TTATAATCTT CTTGCCATAC CGATCGCAGC AGGCGTCTTG 
TTCCCTTCGA CTCGGTTTCG GCTACCACCG TGGATCGCTG GAGCTGCCAT GGCAGCTTCT 
TCTGTTAGTG TGGTATGCAG TTCTTTGATG TTGAAGAAGT ACAAAAGACC CAAGAAGCTT 
GATGAAATTG AGATTCAAAT GAATGGAATA GTGGTTGAAT GA

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

RefSeq	NP_001292652.1
CDS	1..2922
Translation	MLKLPRWNRSTAAATEEITKNATAINDDEATTAAKAVVCVSGMSCSACAVSVENSIKHLPGILDAAVDFLNDRAQILYLPNLTDVETILQAIENAGFQATISKDGTDHRSREVCRIRVNGMGCNSCSSMVESVLEAMYGVQKAHIALLNEEAEVHYDPKVVNCNQFIIAIQDIGFEALPITIGEHVTKIDLKIDGMHNENSTTKVKESLELVLGIDDVNIDTTLSKVTISYRPDIIGPRTFIEILESIKSEHFKVTIYPEDTERETRKQKEIKQHYKYLIWSSALSIPVFLTSMVFMYIPGIKQTLDIKVVNMMNVGHIIRWNLSTPVQFVVGSRFYFGSYKALRRGSANMDVLVTLGTNAAYFYSVYIVLRAATSPTFNGTDFFETSSMLITFILLGKYLEVLAKGKTSDAIAKLKHLAPETATLLTLDLHGNVINEAEISSELIQKNDVIKITPGARVASDGLVVWGESHVNESMITGEAKPVTKRTGDKVIGGTVNENGVLHIKATHVGSESSLSQIVRLVESSQLAKAPIQKFADHISKYFVPLVILLSFLTWIAWFLAGKLHLYPKSWLPSSMDSFELALQFGISVMVIACPCALGLATPTAMMVGTGVGASQGVLIKGGRALEFAHKVSCIVFDKTGTLTIGKPVVVNVKLMNTTVLEELLELTAATEVNSEHPVAKAIVEYAKQFKKEQNPLWPEAQEFISIPGHGVEAIVKNKKIIVGNKSLMMNNDIEIPREVEMFLVDAEGMAQTAVLVAIDRMVSGVVTVSDPLKPGTKEVISILKAMEVKSIMITGDNWGTANSIAKEVGIETIIAEAKPQQKAEEVKNLQTAGHTVAMVGDGINDSPALVAADVGMAIGAGTDIAIEAADIVLMKNDLQDVITAIHLSRKTFAKIRLNYIWALGYNLLAIPIAAGVLFPSTRFRLPPWIAGAAMAASSVSVVCSSLMLKKYKRPKKLDEIEIQMNGIVVE

Target ORF information:

RefSeq Version	NM_001305723.1
Organism	Cucumis sativus(cucumber)
Definition	Cucumis sativus probable copper-transporting ATPase HMA5 (HMA5.1), mRNA.

Target ORF information:

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

NM_001305723.1

ORF Insert Sequence:

ATGTTGAAGT TACCGCGGTG GAACCGATCG ACGGCGGCGG CAACAGAGGA GATTACGAAA 
AATGCGACGG CTATTAACGA CGACGAGGCC ACGACGGCGG CGAAGGCGGT GGTATGCGTT 
AGCGGCATGA GTTGCTCTGC ATGTGCTGTT TCTGTTGAGA ATTCCATCAA ACACCTTCCA 
GGCATTCTCG ATGCTGCCGT CGACTTCTTG AACGATAGGG CTCAAATCCT CTATCTTCCC 
AATCTCACCG ACGTAGAGAC AATACTTCAA GCAATTGAAA ATGCTGGATT TCAAGCTACA 
ATATCAAAGG ACGGGACTGA TCATCGATCG AGAGAAGTAT GTCGAATCCG AGTAAATGGA 
ATGGGCTGCA ATTCTTGCTC TTCCATGGTA GAATCAGTTT TGGAAGCAAT GTATGGAGTA 
CAAAAGGCTC ACATTGCTTT GTTGAATGAG GAAGCAGAAG TTCATTATGA TCCAAAGGTT 
GTTAATTGCA ATCAGTTCAT TATAGCCATA CAAGACATTG GATTTGAAGC ATTACCTATC 
ACCATTGGGG AACACGTTAC CAAGATTGAC CTTAAGATTG ATGGTATGCA CAATGAAAAC 
TCAACAACAA AAGTTAAAGA GTCCCTCGAA TTGGTCCTGG GAATTGACGA TGTCAATATC 
GATACGACAT TAAGCAAAGT TACTATATCA TATAGGCCTG ATATAATAGG ACCTAGAACT 
TTCATTGAAA TACTTGAGTC TATCAAATCT GAGCATTTCA AAGTGACGAT ATATCCCGAA 
GATACGGAAC GAGAAACTCG TAAGCAGAAA GAAATTAAAC AACATTATAA ATACCTTATA 
TGGAGCTCTG CTCTTTCTAT ACCTGTTTTC TTAACTTCTA TGGTTTTCAT GTATATACCT 
GGAATCAAAC AGACTTTAGA TATCAAAGTT GTCAATATGA TGAACGTCGG ACATATTATC 
AGATGGAATT TATCAACTCC GGTGCAGTTC GTCGTAGGTT CGAGATTCTA CTTTGGATCG 
TACAAAGCAT TGCGTCGAGG TTCTGCCAAC ATGGATGTAT TGGTTACTTT AGGAACAAAT 
GCAGCTTATT TCTATTCTGT TTATATAGTG TTAAGAGCAG CTACGTCTCC TACTTTCAAT 
GGTACTGATT TCTTTGAAAC CAGTTCAATG TTAATTACAT TCATTCTACT TGGTAAGTAT 
TTGGAGGTTT TAGCAAAAGG AAAGACCTCT GATGCTATTG CCAAGCTTAA ACACTTGGCT 
CCCGAGACGG CAACACTCTT GACTTTAGAT CTTCATGGAA ATGTGATCAA TGAAGCGGAA 
ATCAGTAGTG AGTTGATCCA AAAGAATGAT GTTATTAAGA TTACACCAGG TGCTAGAGTA 
GCTTCTGATG GTCTTGTCGT ATGGGGAGAA AGCCATGTTA ACGAGAGTAT GATCACAGGA 
GAAGCGAAAC CAGTAACGAA AAGGACGGGG GATAAGGTGA TAGGAGGAAC TGTGAATGAA 
AATGGGGTAT TGCATATAAA GGCAACTCAT GTTGGATCAG AGAGTTCTTT ATCGCAAATC 
GTTCGACTCG TCGAATCATC TCAATTGGCA AAAGCTCCTA TTCAAAAATT TGCTGACCAT 
ATCTCTAAAT ATTTTGTGCC TTTGGTAATT TTACTTTCTT TTCTCACCTG GATTGCTTGG 
TTTTTGGCTG GAAAGTTGCA TCTCTATCCT AAATCATGGT TGCCTTCTTC AATGGACAGT 
TTCGAGTTGG CTCTCCAATT TGGGATTTCT GTTATGGTCA TAGCTTGCCC TTGTGCTCTC 
GGCCTTGCCA CCCCGACTGC CATGATGGTC GGTACCGGCG TAGGTGCATC TCAAGGTGTA 
CTAATAAAAG GAGGTCGAGC ATTAGAATTT GCTCATAAGG TGAGTTGCAT TGTGTTTGAT 
AAGACAGGAA CTCTAACAAT TGGAAAGCCA GTGGTTGTAA ATGTAAAACT TATGAACACT 
ACAGTACTTG AAGAACTACT TGAACTCACT GCAGCAACCG AGGTTAACAG TGAGCACCCA 
GTAGCCAAGG CCATTGTTGA ATATGCCAAA CAATTCAAGA AAGAACAAAA TCCCCTTTGG 
CCAGAAGCTC AAGAATTCAT ATCCATTCCT GGCCATGGAG TAGAAGCCAT AGTAAAAAAC 
AAGAAAATAA TAGTTGGAAA CAAGAGCTTG ATGATGAACA ATGACATCGA AATCCCAAGG 
GAAGTGGAAA TGTTCCTTGT AGATGCCGAA GGTATGGCGC AAACTGCGGT CTTAGTGGCG 
ATAGATCGAA TGGTGTCAGG AGTTGTCACA GTGTCGGATC CGTTGAAACC GGGTACCAAA 
GAAGTTATCT CCATTCTCAA GGCTATGGAA GTGAAGAGCA TCATGATAAC AGGTGACAAC 
TGGGGCACTG CAAATTCCAT TGCTAAAGAA GTTGGAATTG AAACAATCAT TGCTGAGGCT 
AAGCCTCAAC AAAAAGCAGA AGAAGTGAAG AATCTTCAGA CGGCGGGACA CACAGTGGCA 
ATGGTCGGAG ACGGGATCAA CGATTCACCT GCTCTAGTAG CAGCAGATGT CGGGATGGCA 
ATCGGAGCCG GCACTGACAT TGCAATTGAG GCAGCAGACA TTGTTCTAAT GAAAAATGAC 
TTGCAAGATG TTATAACTGC CATTCATCTT TCAAGAAAAA CCTTTGCTAA AATTCGTTTG 
AATTACATTT GGGCTTTAGG TTATAATCTT CTTGCCATAC CGATCGCAGC AGGCGTCTTG 
TTCCCTTCGA CTCGGTTTCG GCTACCACCG TGGATCGCTG GAGCTGCCAT GGCAGCTTCT 
TCTGTTAGTG TGGTATGCAG TTCTTTGATG TTGAAGAAGT ACAAAAGACC CAAGAAGCTT 
GATGAAATTG AGATTCAAAT GAATGGAATA GTGGTTGAAT GA