LOC107347367 cDNA ORF clone, Acropora digitifera

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC107347367
Entrez Gene ID	107347367
Full Name	alpha-mannosidase 2-like
Gene Type	protein-coding
Organism	Acropora digitifera

mRNA and Protein(s)

mRNA	Protein	Name
XM_015913258.1	XP_015768744.1	alpha-mannosidase 2-like

Pathways from BioSystems
Gene Ontology

The following LOC107347367 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107347367 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
OAc75236	XM_015913258.1 Latest version!	Acropora digitifera alpha-mannosidase 2-like (LOC107347367), 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)

LOC107347367 ( XM_015913258.1 ) cDNA ORF clone, Acropora digitifera -> XP_015768744.1 Acropora digitifera alpha-mannosidase 2-like (LOC107347367), mRNA.

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CloneID	OAc75236
Clone ID Related Accession (Same CDS sequence)	XM_015913258.1
Accession Version	XM_015913258.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3108bp) 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	2016-03-13
Organism	Acropora digitifera
Product	alpha-mannosidase 2-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015441358.1) 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 :: Acropora digitifera Annotation Release 100 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 :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGAAGAAAT GGATAGTCCT GCTTGGTGGA GGCATGTTCT GTGTCCTTTT CCTATCTATG 
TATTTTGTTG TGGATCAGCT GGGGAGAATG CCTACCTCTG AGGAGATCCG AAACGTTGAG 
ATGAAGAGGA AATTTGAAGT TCCTTTAGAT GAACTCGAAA AGGACATGAG CCGGCTAGAG 
AGCAATCTTG AAAGGTCTGG AAAAATTATG AGCAATATGC AGGAGTCTGT AGACAAAATA 
CTATTTCGTG GCAAGAAACC AAATGTTGCT GTGAAAGGGC AAATTCCATC CTCAATGGCA 
AGACAACCTG ATGAACAGGC TGTTGGTACT GATGATGGCT GTGTGTTTTC AGGTACAGCA 
TCTGGAAAGT CTGCTAATGT CAAGATGCTG GACATGTTTG ACATTATGCC ATTTGATAAT 
ATTGATGGAG GTGCCTGGAA GCAGGGTTGG GATGTGCAAT ATGATGACAA GTCATTTGAT 
GAAGAGCCTC TGAATGTTTT CGTAGTTCCT CACTCTCACA ATGATCCTGG CTGGATAAAG 
ACGCTTGATC AGTATTACAG TCAACAGACT CGACACATTC TTGACAATGT AGTAGATGCT 
CTGGCGGAGG ACAAAAGGAG GAAATTTATT TGGGCAGAAA TATCATATTT TTCTATGTGG 
TGGAGTGAAG CTGATGAAAA CAGAAAGAAA CATGCCCTAG ACCAGTTATC CAGTGGACAG 
TTGGAAATCG TAACAGGTGG TTGGGTTATG AATGATGAAG CCAACACCCA TTACTATGCT 
ATGCTGGATC AAATGATTGA AGGCCATCAG TGGATGTCAA AATTTCTTGG TTCAGCCATA 
AAGCCAATGT CAGGATGGGC CATTGATCCA TTTGGGCACA CACCCACCAT GGCTTATCTT 
CTTAAACGGA TGGGTTTTAA TTCTATGTTG ATCCAGCGGA CTCATTATCA AGTGAAGAAA 
CATCTTGCAA AAGACAAAAA CCTAGAATTC ATGTGGAGGC AAAACTGGGG GGGAGATGGG 
AGAGGTCGTA TTCCTGACCT CGCTGGTTAC GGGCGGTTTT GGCCGAACTT TTTTTACAGG 
TCTAAAATGC TCCTGGACCA GTACAAGAAA AAGGCTCAAC TATACCGCAC CAATGTGTTG 
TTTGCACCTT TGGGTGATGA TTTTCGTTAT GAAACTACCT TCGACACGCA TGCCCAGTTC 
ACTAATTACC AGCGAATTAT GGATTATATC AACTCTCACC CAGAGATGAA AGCTAAGGTT 
CAATTTGGAA CTTTAAGTGA CTATTTTAAT GCTCTGTTCA AAGCCACAGG TACCGAGCCT 
GGAGGTCAAC CCGAAAATTT CCCAGCTTTG TCTGGCGATT TTTACACATA CGCTGATAGG 
GAAGATCACT ATTGGAGTGG TTATTACACA TCGCGTCCAT TCTACAAGAA CTTGGATAGA 
GAATTGGAGT CCAAGCACAG GGCCGCTGAG ATAATTTTCT CCTTGGCTGA ATCACACGTA 
CGGCATCGTG GCAGCTCTAG TTTTCCTGTG GAGCAGTTGT ATGGTCTCTT GACAAAAGCC 
CGACAAAACT TGGCTTTGTT TCAACACCAT GACGGCATCA CTGGTACAGC AAAGGACTTC 
GTGGTTGTGG ATTATGGACA GAGAATGCTT CAGTCCTTGA ATGATGTACA AAGTGTGATA 
CAGGAATCAG CGCAGCTTCT GTTGACATCT GACATGGCAT TTTATCAGCC AGCGGATCCA 
TTGATTCCTC CTCTGAAATT CGAAAAATAC AGGCCAGCCC ATGATGCTTT GCCAACCAAG 
GAAGTCATAA CACTGTCCGA CACACCGAGA GCAGTGGTAT TTTATAATTC CTTGACGACA 
ACAAGAGAAC AAGTGGTCGG GCTACACATC TCTGATCCTG AAGTAATGGT GAGTGACAGT 
GACGGAGCAG AAATTGCAAG TCAGGTGAAT GTGTGGTGGG ACCACAGAAA CAGAATATCA 
ACCGCTAAGT ATGAGGTTTT ATTTGTTGCC AAAGTTCCGG CACTTGGCCT CACCACATAT 
TTTGTATCGT CTGGCCGCGG ATCAAAGCTC AGCGAACGTG CGACCATAAC AGCTTTTAAC 
TCTCAAGAAC CTCACAACAT GGGGGGAAAC TTTAAAGTTG AATCCAAGAT ACCTGGTGAA 
GAAAATATTT TGCTAGAAAA TGATGAGGTG AAGCTCGAAT TTAGCGGTGC CAGTGGACTT 
TTGAAGACTA TCACACATAA GAAAGATGGG ACTGTGACCG AAGCAGCCAT TGATTTTGCT 
ACCTACGGCA CAAAGTCCTC AGGAGATAGA AGTGGCGCAT ATCTTTTTCT TCCAGATGGG 
CCAGCGGTGA CTCATGGCAA GGGAGAACAG CCCGCGGTTT ATGTGATCCG AGGAAAACTG 
ATGCAAGAGG TGCGAGTTTC CCTTCCTAAT GTTGTCCATG TGGTACGACT TTATTCAGTT 
CCTGGACCAG AAAGGCGGAT GGTGGATATT CAAAATAAAG TGGACATTAA AAATCTAGTC 
AACAAGGAAT TGGTGATGCG AATCAAGAGC AGTGTAAAGA ACAGCAACCG GGAGTTTTAC 
ACGGACTTGA ATGGGTTTCA GATGCAAAAG CGTAAAACGT TGGATAAAAT TCCCATTCAA 
GCCAATTTCT ATCCTCTTCC ATCTATGGCG TTCCTTCAGG ATAAATCCAC GCGGTTGACT 
CTGCTTTCCT CTCAGCCTAA TGGTGTGGCC AGTCTTCATC AAGGTGAATT CCAGGTAGTT 
CTTGATCGCC GTCTGTATCA GGATGACAAC AGAGGCCTGG GTCAGGGTGT TACTGATAAC 
AAAGAGACTC TAGCAAACTT TCGACTTCTC GTGGAAGAAT TTACAACTGC ACATGATGGA 
CCTGTAAGTA TGCTATACTT CGAGTTGAAG GGATTTATCG TTACTGTTGT TATTGTTTTT 
TTTTTTTCGC GACAGGTTGA ATTGAATCAC CTATTCCAAG ATTTATTCAT CGATAGACTC 
CAGTCCACGT CTCTAACATT GTTGCACGAG TACCAGGAAC TAGATCCAAG TTCTCCTCTG 
AACGTCAAAC CCATGGAACT CTCCTCCTAC AAGATGCGGC TGACTTGA

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

RefSeq	XP_015768744.1
CDS	70..3177
Translation	MKKWIVLLGGGMFCVLFLSMYFVVDQLGRMPTSEEIRNVEMKRKFEVPLDELEKDMSRLESNLERSGKIMSNMQESVDKILFRGKKPNVAVKGQIPSSMARQPDEQAVGTDDGCVFSGTASGKSANVKMLDMFDIMPFDNIDGGAWKQGWDVQYDDKSFDEEPLNVFVVPHSHNDPGWIKTLDQYYSQQTRHILDNVVDALAEDKRRKFIWAEISYFSMWWSEADENRKKHALDQLSSGQLEIVTGGWVMNDEANTHYYAMLDQMIEGHQWMSKFLGSAIKPMSGWAIDPFGHTPTMAYLLKRMGFNSMLIQRTHYQVKKHLAKDKNLEFMWRQNWGGDGRGRIPDLAGYGRFWPNFFYRSKMLLDQYKKKAQLYRTNVLFAPLGDDFRYETTFDTHAQFTNYQRIMDYINSHPEMKAKVQFGTLSDYFNALFKATGTEPGGQPENFPALSGDFYTYADREDHYWSGYYTSRPFYKNLDRELESKHRAAEIIFSLAESHVRHRGSSSFPVEQLYGLLTKARQNLALFQHHDGITGTAKDFVVVDYGQRMLQSLNDVQSVIQESAQLLLTSDMAFYQPADPLIPPLKFEKYRPAHDALPTKEVITLSDTPRAVVFYNSLTTTREQVVGLHISDPEVMVSDSDGAEIASQVNVWWDHRNRISTAKYEVLFVAKVPALGLTTYFVSSGRGSKLSERATITAFNSQEPHNMGGNFKVESKIPGEENILLENDEVKLEFSGASGLLKTITHKKDGTVTEAAIDFATYGTKSSGDRSGAYLFLPDGPAVTHGKGEQPAVYVIRGKLMQEVRVSLPNVVHVVRLYSVPGPERRMVDIQNKVDIKNLVNKELVMRIKSSVKNSNREFYTDLNGFQMQKRKTLDKIPIQANFYPLPSMAFLQDKSTRLTLLSSQPNGVASLHQGEFQVVLDRRLYQDDNRGLGQGVTDNKETLANFRLLVEEFTTAHDGPVSMLYFELKGFIVTVVIVFFFSRQVELNHLFQDLFIDRLQSTSLTLLHEYQELDPSSPLNVKPMELSSYKMRLT

Target ORF information:

RefSeq Version	XM_015913258.1
Organism	Acropora digitifera
Definition	Acropora digitifera alpha-mannosidase 2-like (LOC107347367), mRNA.

Target ORF information:

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

XM_015913258.1

ORF Insert Sequence:

ATGAAGAAAT GGATAGTCCT GCTTGGTGGA GGCATGTTCT GTGTCCTTTT CCTATCTATG 
TATTTTGTTG TGGATCAGCT GGGGAGAATG CCTACCTCTG AGGAGATCCG AAACGTTGAG 
ATGAAGAGGA AATTTGAAGT TCCTTTAGAT GAACTCGAAA AGGACATGAG CCGGCTAGAG 
AGCAATCTTG AAAGGTCTGG AAAAATTATG AGCAATATGC AGGAGTCTGT AGACAAAATA 
CTATTTCGTG GCAAGAAACC AAATGTTGCT GTGAAAGGGC AAATTCCATC CTCAATGGCA 
AGACAACCTG ATGAACAGGC TGTTGGTACT GATGATGGCT GTGTGTTTTC AGGTACAGCA 
TCTGGAAAGT CTGCTAATGT CAAGATGCTG GACATGTTTG ACATTATGCC ATTTGATAAT 
ATTGATGGAG GTGCCTGGAA GCAGGGTTGG GATGTGCAAT ATGATGACAA GTCATTTGAT 
GAAGAGCCTC TGAATGTTTT CGTAGTTCCT CACTCTCACA ATGATCCTGG CTGGATAAAG 
ACGCTTGATC AGTATTACAG TCAACAGACT CGACACATTC TTGACAATGT AGTAGATGCT 
CTGGCGGAGG ACAAAAGGAG GAAATTTATT TGGGCAGAAA TATCATATTT TTCTATGTGG 
TGGAGTGAAG CTGATGAAAA CAGAAAGAAA CATGCCCTAG ACCAGTTATC CAGTGGACAG 
TTGGAAATCG TAACAGGTGG TTGGGTTATG AATGATGAAG CCAACACCCA TTACTATGCT 
ATGCTGGATC AAATGATTGA AGGCCATCAG TGGATGTCAA AATTTCTTGG TTCAGCCATA 
AAGCCAATGT CAGGATGGGC CATTGATCCA TTTGGGCACA CACCCACCAT GGCTTATCTT 
CTTAAACGGA TGGGTTTTAA TTCTATGTTG ATCCAGCGGA CTCATTATCA AGTGAAGAAA 
CATCTTGCAA AAGACAAAAA CCTAGAATTC ATGTGGAGGC AAAACTGGGG GGGAGATGGG 
AGAGGTCGTA TTCCTGACCT CGCTGGTTAC GGGCGGTTTT GGCCGAACTT TTTTTACAGG 
TCTAAAATGC TCCTGGACCA GTACAAGAAA AAGGCTCAAC TATACCGCAC CAATGTGTTG 
TTTGCACCTT TGGGTGATGA TTTTCGTTAT GAAACTACCT TCGACACGCA TGCCCAGTTC 
ACTAATTACC AGCGAATTAT GGATTATATC AACTCTCACC CAGAGATGAA AGCTAAGGTT 
CAATTTGGAA CTTTAAGTGA CTATTTTAAT GCTCTGTTCA AAGCCACAGG TACCGAGCCT 
GGAGGTCAAC CCGAAAATTT CCCAGCTTTG TCTGGCGATT TTTACACATA CGCTGATAGG 
GAAGATCACT ATTGGAGTGG TTATTACACA TCGCGTCCAT TCTACAAGAA CTTGGATAGA 
GAATTGGAGT CCAAGCACAG GGCCGCTGAG ATAATTTTCT CCTTGGCTGA ATCACACGTA 
CGGCATCGTG GCAGCTCTAG TTTTCCTGTG GAGCAGTTGT ATGGTCTCTT GACAAAAGCC 
CGACAAAACT TGGCTTTGTT TCAACACCAT GACGGCATCA CTGGTACAGC AAAGGACTTC 
GTGGTTGTGG ATTATGGACA GAGAATGCTT CAGTCCTTGA ATGATGTACA AAGTGTGATA 
CAGGAATCAG CGCAGCTTCT GTTGACATCT GACATGGCAT TTTATCAGCC AGCGGATCCA 
TTGATTCCTC CTCTGAAATT CGAAAAATAC AGGCCAGCCC ATGATGCTTT GCCAACCAAG 
GAAGTCATAA CACTGTCCGA CACACCGAGA GCAGTGGTAT TTTATAATTC CTTGACGACA 
ACAAGAGAAC AAGTGGTCGG GCTACACATC TCTGATCCTG AAGTAATGGT GAGTGACAGT 
GACGGAGCAG AAATTGCAAG TCAGGTGAAT GTGTGGTGGG ACCACAGAAA CAGAATATCA 
ACCGCTAAGT ATGAGGTTTT ATTTGTTGCC AAAGTTCCGG CACTTGGCCT CACCACATAT 
TTTGTATCGT CTGGCCGCGG ATCAAAGCTC AGCGAACGTG CGACCATAAC AGCTTTTAAC 
TCTCAAGAAC CTCACAACAT GGGGGGAAAC TTTAAAGTTG AATCCAAGAT ACCTGGTGAA 
GAAAATATTT TGCTAGAAAA TGATGAGGTG AAGCTCGAAT TTAGCGGTGC CAGTGGACTT 
TTGAAGACTA TCACACATAA GAAAGATGGG ACTGTGACCG AAGCAGCCAT TGATTTTGCT 
ACCTACGGCA CAAAGTCCTC AGGAGATAGA AGTGGCGCAT ATCTTTTTCT TCCAGATGGG 
CCAGCGGTGA CTCATGGCAA GGGAGAACAG CCCGCGGTTT ATGTGATCCG AGGAAAACTG 
ATGCAAGAGG TGCGAGTTTC CCTTCCTAAT GTTGTCCATG TGGTACGACT TTATTCAGTT 
CCTGGACCAG AAAGGCGGAT GGTGGATATT CAAAATAAAG TGGACATTAA AAATCTAGTC 
AACAAGGAAT TGGTGATGCG AATCAAGAGC AGTGTAAAGA ACAGCAACCG GGAGTTTTAC 
ACGGACTTGA ATGGGTTTCA GATGCAAAAG CGTAAAACGT TGGATAAAAT TCCCATTCAA 
GCCAATTTCT ATCCTCTTCC ATCTATGGCG TTCCTTCAGG ATAAATCCAC GCGGTTGACT 
CTGCTTTCCT CTCAGCCTAA TGGTGTGGCC AGTCTTCATC AAGGTGAATT CCAGGTAGTT 
CTTGATCGCC GTCTGTATCA GGATGACAAC AGAGGCCTGG GTCAGGGTGT TACTGATAAC 
AAAGAGACTC TAGCAAACTT TCGACTTCTC GTGGAAGAAT TTACAACTGC ACATGATGGA 
CCTGTAAGTA TGCTATACTT CGAGTTGAAG GGATTTATCG TTACTGTTGT TATTGTTTTT 
TTTTTTTCGC GACAGGTTGA ATTGAATCAC CTATTCCAAG ATTTATTCAT CGATAGACTC 
CAGTCCACGT CTCTAACATT GTTGCACGAG TACCAGGAAC TAGATCCAAG TTCTCCTCTG 
AACGTCAAAC CCATGGAACT CTCCTCCTAC AAGATGCGGC TGACTTGA