Fyco1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Fyco1
Entrez Gene ID	301085
Full Name	FYVE and coiled-coil domain containing 1
General protein information	Preferred Names FYVE and coiled-coil domain containing 1 Names FYVE and coiled-coil domain-containing protein 1
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 8 Map Location: 8q32

mRNA and Protein(s)

mRNA	Protein	Name
XM_017595602.1	XP_017451091.1	FYVE and coiled-coil domain-containing protein 1 isoform X1
NM_001106870.1	NP_001100340.1	FYVE and coiled-coil domain-containing protein 1

Pathways from BioSystems

Homologies

Danio rerio (zebrafish)	LOC565649	XP_003201276.2
Pan troglodytes (chimpanzee)	FYCO1	XP_003309815.1
Canis lupus familiaris (dog)	FYCO1	XP_005632690.1
Bos taurus (cattle)	FYCO1	XP_005223169.1
Gallus gallus (chicken)	FYCO1	NP_001039304.2
Homo sapiens (human)	FYCO1	NP_078789.2
	FYCO1	XP_001114357.1
Mus musculus (house mouse)	Fyco1	NP_683727.3
Rattus norvegicus (Norway rat)	Fyco1	NP_001100340.1

Gene Ontology
Bibliography

Related articles in PubMed

FYCO1 Contains a C-terminally Extended, LC3A/B-preferring LC3-interacting Region (LIR) Motif Required for Efficient Maturation of Autophagosomes during Basal Autophagy.
Olsvik HL, Lamark T, Takagi K, Larsen KB, Evjen G, ?vervatn A, Mizushima T, Johansen T
The Journal of biological chemistry290(49)29361-74(2015 Dec)

Defining the membrane proteome of NK cells.
Ghosh D, Lippert D, Krokhin O, Cortens JP, Wilkins JA
Journal of mass spectrometry : JMS45(1)1-25(2010 Jan)

FYCO1 is a Rab7 effector that binds to LC3 and PI3P to mediate microtubule plus end-directed vesicle transport.
Pankiv S, Alemu EA, Brech A, Bruun JA, Lamark T, Overvatn A, Bj?rk?y G, Johansen T
The Journal of cell biology188(2)253-69(2010 Jan)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following Fyco1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Fyco1 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
ORa05039	NM_001106870.1 Latest version!	Rattus norvegicus FYVE and coiled-coil domain autophagy adaptor 1 (Fyco1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
ORa05039	XM_017595602.1 Latest version!	Rattus norvegicus FYVE and coiled-coil domain containing 1 (Fyco1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00

ORF Online Only Promotion

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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)

Fyco1 ( NM_001106870.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001100340.1 Rattus norvegicus FYVE and coiled-coil domain autophagy adaptor 1 (Fyco1), mRNA.

Price & Availability↑

CloneID	ORa05039
Clone ID Related Accession (Same CDS sequence)	XM_017595602.1 , NM_001106870.1
Accession Version	NM_001106870.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4356bp) 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	2019-10-07
Organism	Rattus norvegicus(Norway rat)
Product	FYVE and coiled-coil domain-containing protein 1
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473954.2. On or before Oct 4, 2007 this sequence version replaced XM_001078714.1, XM_236739.4. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END##

ATGGCTTCTA GCAGCACTGA GACGCAGCTC CAGAGGATCA TCCGTGATCT ACAAGATGCA 
GTGACAGAAC TAAGCAATGA ATTTAAGGAA GGCGGAGAAC CAATCACAGA TGACAGCACC 
AGCTTGCACA AGTTTTCTTA CAAACTTGAG TATCTTCTGC AATTTGATCA GAAGGAGAAG 
GCTAGCCTCC TGGGTAGCAA GAAGGACTAC TGGGATTACT TCTGTGCGTG CCTAGCCAAG 
GTGAAAGGAG CCAATGATGG GATTCGATTC GTCAGGTCCA TCTCTGAGCT CCGAACATCT 
CTAGGAAAGG GGAGAGCCTT CATTCGCTAC TCTTTGGTGC ACCAGAGGTT GGCAGACACC 
TTGCAGCAGT GCTTCATGAA CACCAAAGTG ACCAGTGACT GGTATTATGC AAGAAGCCCC 
TTTCTGAAGC CAAAGCTGAG CTCTGACATT GTGGGCCAGC TGTATGAGCT GACTGAGGTT 
CAGTTTGATC TAGCATCAAG AGGCTACGAC TTGGATGCCG CCTGGCCAAC ATTTGCCAGG 
AGGACGCTAG CCACCAGCTC TTCTTACATG TGGAAACCCC CCAGCCGAAG CTCCAGCATG 
AGTAGTTTAG TGAGCAACTA CTTGCAGACT CAGGAGATGG CCTCCAGTCT TGACCTGAAT 
AGTTCTCTAA ACAATGAAGC ACTAGAAAGC TTCGATGAGA TGCGGCTGGA GCTGGACCAG 
TTGGAGGTTC GGGAGAAACA GCTACAAGAG CACGTGCAGC AGCTAAACAG GGAAAACCAA 
GCACTTCGAA TGACGATCAG CAAGCAAGGG GGGCAACTTC AGGTAGAGAA GGAAACGGGG 
TACCTTGCAG TCGAGGATAG CATTGACCTC GTGAGCCTGG TGGCAGAGCT CCAGAAGCAG 
GGGGAGGTCA CCCAGGCCAC AGTGAAGAAG CTACAGACAT GTCTACAGGC TCTGGAGTTA 
GCTGTAGACC AGAAAGAGAC CAGCCACTCA GTCTTGCAGC TTGAGAACGT GGCACAGGCA 
CTTGACGCTG TGAGAGACTC CTTGGGTAGG AAGAACCAGC TTCTAGCCAG CCTTTCTGAA 
TGCCTCACTA GGGCTGAAAA AAGGGAACAT CCATCTCTGG ACACAAAGCT TCATCAAGAG 
CCAGTTCCTA CTGACCTGGC CCTGAAGTTC CAGGAGCTGA AGGGAAAACT TCAAACCCTA 
GAAGGAGAGA ACACCAAGGC CCAGGAGCTA AACAGGCAGC AAAGTCTCAA GCTAGAGCAG 
CTGGCCAAGG AGCTGCAGCT GAAGGAGGAA GCCCGAGCTA GCCTGGAACA CTTAGTGAAG 
GATGCGGTCC CACTTCAGGA AGAGCTATCC GGAAAGAAGC AAGAGTCAGC TCAGCTCCGA 
CGACAGCTTC AGGAATCCCT GGCCCACTTG AGCTCTGTGG AGGAGGAGCT GGCTGAAGCC 
AGACAGCAGG AAAAGCAGCA TCGAGAAGAA AAACAGCTAC TAGAGCAGGA GGCCAAGTCT 
CTGACATGGC AGCTGCAGCT CCTAGAGACC CAACTAGGAC AGGTGAGTCA GCTTGTGAGT 
GACCTGGAGG AGCAGAAGAA GCAACTCATG CAGGACAAAG ACCATCTCAG CCAGAAAGTA 
GGAACACTAG AGCAGCTAGC TGAGGCCCAT GGGGCAAGTA AGAGTAAAGA GGCTGTCCCA 
CCACAGGCTG GGGAGATGCC AGAAAAGGGG CAGCACTGCC TCCAGGAAGA ACAGGTAAAC 
AATGCCACAG TGCGAGGGGC AGACCAGGAC GAGTTACAAA AGGTCAACCA GGAGCTACAG 
AAGGAGCTGC AGAACATGGC TGTGCGCAAC CAGCTCCTAG AAGGCAAACT GCAGGCCTTG 
CAAACTGATT ACAAGGCACT GCAGCAGCGA GAGGCAGCAA TCCAGGGCTC TTTAGCCTCC 
CTGGAAGCTG AGCAGGCCAG CATCCGGCAG CTGGGAAACC AGATGGAAGC AAGCCTCCTG 
GCTGTGAGGA AAGCCAAAGA GACTATGAAG GCCCAGGTGG CAGAGAAGGA GGCTGCCCTG 
CAGAGTAAGG AGGGCGAGTG CCGGCAGCTG CAGGAAGAGG CAGAGCAGTG CCGGCTTCGG 
ACAGAGGCCC AGGCCCAGGA GCTCAGAGCT CTTGAGAACC AGTGCCAGCA GCAGATTCAA 
CTGATTGAGG TCCTCTCTGC AGAAAAAGGC CAACAGGGAC TCAGCCTACC CCAGGTCAAC 
ACAGCCCAAC TGGCCCTGTC TCAAGCACAG CTTGAAATTC ACCAGGGGGA AGCCCAGCGG 
TTACAGAATG AGGTGGTGGA CCTCCAGGCC AAGCTCCAGG TGGCCCTAGG TGATCGAGAC 
AAGTTACAGA GCCAACTGGG TGTGGCTGAG GCAGTTCTCG GGGAGCACAA GACCCTGGTG 
CAACAACTGA AAGAACAGAA TGAAGCCCTC AACAGGGCCC ATATTCAGGA GCTGCTGCAG 
TGCTCAGAGA GAGAGGGGAT ACTGCAGGAG GAGAGCATCT ACAAGGCCCA GAAGCAGGAG 
CAAGAGCTAC GAGCCCTGCA GGCAGAGCTG TCACAGGTGA GGTGCAGCTC TGAGGGAGCC 
CACCTGGAGC ATGCAGAGCT ACAGGACCAG CTGCACCGAG CCAACACAGA CACAGCTGAG 
CTAGGCATAC AGGTCTGTGC ACTGACAGCT GAGAAGGATC GGATGGAGGG GGCCCTGGCC 
AGCCTAGCCC AGGAGCTCCA GGACTCCAAA GAAGCAGCAC TACAGGAACG AAAGGGCTTA 
GAGCTCCAAG TGATGCAACT TCAGCAAGAG AAGGAGAGCT TGCAGGAAAA GCTGAAGGCA 
ACTGAGGAGG CAGCCAGTTC ATTCTCTGTT CTTCAGGCAC AGCTGGCCCA GGCTGAGCAG 
CTGGCCCAGA GCCTCCAAGA GGCTGCACAC CAGGAACAAG ATGCCCTTAA GTTCCAGCTA 
AGTGCTGAGA TTATGGACCA CCAGAACAGA CTAAAGACAG CCAATGAAGA GTGTGGGAGC 
CTCAGGGCCC AGCTAGAAGA ACAAGGCCAG GAGCTGCAAA TGACTAAGGA GGCTGTGCAG 
GAACTGAAGA TCACCAAGGC GACCATGGAG GAGAAGCTGA ATTGCACCGG TAGCCACCTT 
GCAGAGTGCC AGGCCACTTT GCTACGCAAA GATGAAGAAA GCGCTATGCT TCGAATCAAC 
CTAGAGAGAA CACAGAAGGA ACTTGAAAAG GCTACATCAA AATTCCAAGA ATATTACAAC 
AAACTCTGCC AGGAGGTGAC AAACAGGGAA AGGAATGACC AGAAGATGCT TGCAGACCTA 
GATGACCTGA ACAGAACCAA GAAATACCTT GAGGAGCGGC TGATAGAGCT GCTCAGGGAC 
AAAGATGCTC TCTGGCAAAA GTCCGATGCA CTGGAATTCC AGCAGAAGCT CAGTGCTGAA 
GAGAAATGTC TTGGGGACAT GGAGGCCAAC CACTGCCATG ACTGCAAGCG GGAGTTCAGC 
TGGATAGTGC GGCGGCACCA CTGCAGGTTA TGTGGCCGAA TATTCTGTTA CTACTGCTGT 
AACAACTATG TTGTGACTAA GCCCAGTGGC AAGAAGGAAC GGTGCTGCCG AGCCTGCTTC 
CAGAAGTTTG GTGAAAGCTC TGGATCCCCT GACAGCAGTG GTTCGGGCAC TAGCCAGGGA 
GAGCCCAGCC CCATGGTGTC ACCAGCTGAA GCAGCTCCCC AGTCCATAGG AAGCCAAGGA 
ATAAACCCAG TCTGCAGACC ACCAGATGAT GCTGTGTTTG ACATCATCAC CGATGAGGAA 
CTGTGCCAGA TCCAAGAATC TGGCTCCTCC TTGCCTGAAA CACCCACCGA AACTGATTCG 
ATGGACCCAA ATATGGCTGA ACAGGACACC ACATCAAACT CATTAACCCC TGAAGACACT 
GAAGACATGC CCCTGGGGCA GGATGCTGAA ATCTGCTTGC TGAAGTCAGG AGAGCTGATG 
ATCAAATTAC CCCTCACAGT AGAGGAGATC GCCAGCTTTG GGGAGGGAAA CAGGGAGCTG 
TTTGTGAGGT CCAGTACCTA CAGCCTGATC CCCATCACCG TGGCTGAGCC CGGCCTTACC 
ATCAGCTGGG TCTTCTCTTC TGATCCCAAG AGCATCTCCT TCAGTGTGGT CTTCCAAGAG 
ACAGAAGACA CGCCACTCGA CCAGTGCAAG GTCCTCATTC CCACCACACG CTGCAATTCC 
CACAAGGAGA GCATCCGGGG CCAGCTGAAG GTCCGAACCC CTGGCATCTA CTTGCTCATC 
TTTGACAACA CCTTTTCCAG ATTTATCTCC AAAAAAGTAT TTTACCACCT GACCGTTGAC 
CGGCCTGTGA TCTACGATGG AAGTGATTTC CCATAG

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

RefSeq	NP_001100340.1
CDS	490..4845
Translation	MASSSTETQLQRIIRDLQDAVTELSNEFKEGGEPITDDSTSLHKFSYKLEYLLQFDQKEKASLLGSKKDYWDYFCACLAKVKGANDGIRFVRSISELRTSLGKGRAFIRYSLVHQRLADTLQQCFMNTKVTSDWYYARSPFLKPKLSSDIVGQLYELTEVQFDLASRGYDLDAAWPTFARRTLATSSSYMWKPPSRSSSMSSLVSNYLQTQEMASSLDLNSSLNNEALESFDEMRLELDQLEVREKQLQEHVQQLNRENQALRMTISKQGGQLQVEKETGYLAVEDSIDLVSLVAELQKQGEVTQATVKKLQTCLQALELAVDQKETSHSVLQLENVAQALDAVRDSLGRKNQLLASLSECLTRAEKREHPSLDTKLHQEPVPTDLALKFQELKGKLQTLEGENTKAQELNRQQSLKLEQLAKELQLKEEARASLEHLVKDAVPLQEELSGKKQESAQLRRQLQESLAHLSSVEEELAEARQQEKQHREEKQLLEQEAKSLTWQLQLLETQLGQVSQLVSDLEEQKKQLMQDKDHLSQKVGTLEQLAEAHGASKSKEAVPPQAGEMPEKGQHCLQEEQVNNATVRGADQDELQKVNQELQKELQNMAVRNQLLEGKLQALQTDYKALQQREAAIQGSLASLEAEQASIRQLGNQMEASLLAVRKAKETMKAQVAEKEAALQSKEGECRQLQEEAEQCRLRTEAQAQELRALENQCQQQIQLIEVLSAEKGQQGLSLPQVNTAQLALSQAQLEIHQGEAQRLQNEVVDLQAKLQVALGDRDKLQSQLGVAEAVLGEHKTLVQQLKEQNEALNRAHIQELLQCSEREGILQEESIYKAQKQEQELRALQAELSQVRCSSEGAHLEHAELQDQLHRANTDTAELGIQVCALTAEKDRMEGALASLAQELQDSKEAALQERKGLELQVMQLQQEKESLQEKLKATEEAASSFSVLQAQLAQAEQLAQSLQEAAHQEQDALKFQLSAEIMDHQNRLKTANEECGSLRAQLEEQGQELQMTKEAVQELKITKATMEEKLNCTGSHLAECQATLLRKDEESAMLRINLERTQKELEKATSKFQEYYNKLCQEVTNRERNDQKMLADLDDLNRTKKYLEERLIELLRDKDALWQKSDALEFQQKLSAEEKCLGDMEANHCHDCKREFSWIVRRHHCRLCGRIFCYYCCNNYVVTKPSGKKERCCRACFQKFGESSGSPDSSGSGTSQGEPSPMVSPAEAAPQSIGSQGINPVCRPPDDAVFDIITDEELCQIQESGSSLPETPTETDSMDPNMAEQDTTSNSLTPEDTEDMPLGQDAEICLLKSGELMIKLPLTVEEIASFGEGNRELFVRSSTYSLIPITVAEPGLTISWVFSSDPKSISFSVVFQETEDTPLDQCKVLIPTTRCNSHKESIRGQLKVRTPGIYLLIFDNTFSRFISKKVFYHLTVDRPVIYDGSDFP

Target ORF information:

RefSeq Version	NM_001106870.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus FYVE and coiled-coil domain autophagy adaptor 1 (Fyco1), mRNA.

Target ORF information:

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

NM_001106870.1

ORF Insert Sequence:

ATGGCTTCTA GCAGCACTGA GACGCAGCTC CAGAGGATCA TCCGTGATCT ACAAGATGCA 
GTGACAGAAC TAAGCAATGA ATTTAAGGAA GGCGGAGAAC CAATCACAGA TGACAGCACC 
AGCTTGCACA AGTTTTCTTA CAAACTTGAG TATCTTCTGC AATTTGATCA GAAGGAGAAG 
GCTAGCCTCC TGGGTAGCAA GAAGGACTAC TGGGATTACT TCTGTGCGTG CCTAGCCAAG 
GTGAAAGGAG CCAATGATGG GATTCGATTC GTCAGGTCCA TCTCTGAGCT CCGAACATCT 
CTAGGAAAGG GGAGAGCCTT CATTCGCTAC TCTTTGGTGC ACCAGAGGTT GGCAGACACC 
TTGCAGCAGT GCTTCATGAA CACCAAAGTG ACCAGTGACT GGTATTATGC AAGAAGCCCC 
TTTCTGAAGC CAAAGCTGAG CTCTGACATT GTGGGCCAGC TGTATGAGCT GACTGAGGTT 
CAGTTTGATC TAGCATCAAG AGGCTACGAC TTGGATGCCG CCTGGCCAAC ATTTGCCAGG 
AGGACGCTAG CCACCAGCTC TTCTTACATG TGGAAACCCC CCAGCCGAAG CTCCAGCATG 
AGTAGTTTAG TGAGCAACTA CTTGCAGACT CAGGAGATGG CCTCCAGTCT TGACCTGAAT 
AGTTCTCTAA ACAATGAAGC ACTAGAAAGC TTCGATGAGA TGCGGCTGGA GCTGGACCAG 
TTGGAGGTTC GGGAGAAACA GCTACAAGAG CACGTGCAGC AGCTAAACAG GGAAAACCAA 
GCACTTCGAA TGACGATCAG CAAGCAAGGG GGGCAACTTC AGGTAGAGAA GGAAACGGGG 
TACCTTGCAG TCGAGGATAG CATTGACCTC GTGAGCCTGG TGGCAGAGCT CCAGAAGCAG 
GGGGAGGTCA CCCAGGCCAC AGTGAAGAAG CTACAGACAT GTCTACAGGC TCTGGAGTTA 
GCTGTAGACC AGAAAGAGAC CAGCCACTCA GTCTTGCAGC TTGAGAACGT GGCACAGGCA 
CTTGACGCTG TGAGAGACTC CTTGGGTAGG AAGAACCAGC TTCTAGCCAG CCTTTCTGAA 
TGCCTCACTA GGGCTGAAAA AAGGGAACAT CCATCTCTGG ACACAAAGCT TCATCAAGAG 
CCAGTTCCTA CTGACCTGGC CCTGAAGTTC CAGGAGCTGA AGGGAAAACT TCAAACCCTA 
GAAGGAGAGA ACACCAAGGC CCAGGAGCTA AACAGGCAGC AAAGTCTCAA GCTAGAGCAG 
CTGGCCAAGG AGCTGCAGCT GAAGGAGGAA GCCCGAGCTA GCCTGGAACA CTTAGTGAAG 
GATGCGGTCC CACTTCAGGA AGAGCTATCC GGAAAGAAGC AAGAGTCAGC TCAGCTCCGA 
CGACAGCTTC AGGAATCCCT GGCCCACTTG AGCTCTGTGG AGGAGGAGCT GGCTGAAGCC 
AGACAGCAGG AAAAGCAGCA TCGAGAAGAA AAACAGCTAC TAGAGCAGGA GGCCAAGTCT 
CTGACATGGC AGCTGCAGCT CCTAGAGACC CAACTAGGAC AGGTGAGTCA GCTTGTGAGT 
GACCTGGAGG AGCAGAAGAA GCAACTCATG CAGGACAAAG ACCATCTCAG CCAGAAAGTA 
GGAACACTAG AGCAGCTAGC TGAGGCCCAT GGGGCAAGTA AGAGTAAAGA GGCTGTCCCA 
CCACAGGCTG GGGAGATGCC AGAAAAGGGG CAGCACTGCC TCCAGGAAGA ACAGGTAAAC 
AATGCCACAG TGCGAGGGGC AGACCAGGAC GAGTTACAAA AGGTCAACCA GGAGCTACAG 
AAGGAGCTGC AGAACATGGC TGTGCGCAAC CAGCTCCTAG AAGGCAAACT GCAGGCCTTG 
CAAACTGATT ACAAGGCACT GCAGCAGCGA GAGGCAGCAA TCCAGGGCTC TTTAGCCTCC 
CTGGAAGCTG AGCAGGCCAG CATCCGGCAG CTGGGAAACC AGATGGAAGC AAGCCTCCTG 
GCTGTGAGGA AAGCCAAAGA GACTATGAAG GCCCAGGTGG CAGAGAAGGA GGCTGCCCTG 
CAGAGTAAGG AGGGCGAGTG CCGGCAGCTG CAGGAAGAGG CAGAGCAGTG CCGGCTTCGG 
ACAGAGGCCC AGGCCCAGGA GCTCAGAGCT CTTGAGAACC AGTGCCAGCA GCAGATTCAA 
CTGATTGAGG TCCTCTCTGC AGAAAAAGGC CAACAGGGAC TCAGCCTACC CCAGGTCAAC 
ACAGCCCAAC TGGCCCTGTC TCAAGCACAG CTTGAAATTC ACCAGGGGGA AGCCCAGCGG 
TTACAGAATG AGGTGGTGGA CCTCCAGGCC AAGCTCCAGG TGGCCCTAGG TGATCGAGAC 
AAGTTACAGA GCCAACTGGG TGTGGCTGAG GCAGTTCTCG GGGAGCACAA GACCCTGGTG 
CAACAACTGA AAGAACAGAA TGAAGCCCTC AACAGGGCCC ATATTCAGGA GCTGCTGCAG 
TGCTCAGAGA GAGAGGGGAT ACTGCAGGAG GAGAGCATCT ACAAGGCCCA GAAGCAGGAG 
CAAGAGCTAC GAGCCCTGCA GGCAGAGCTG TCACAGGTGA GGTGCAGCTC TGAGGGAGCC 
CACCTGGAGC ATGCAGAGCT ACAGGACCAG CTGCACCGAG CCAACACAGA CACAGCTGAG 
CTAGGCATAC AGGTCTGTGC ACTGACAGCT GAGAAGGATC GGATGGAGGG GGCCCTGGCC 
AGCCTAGCCC AGGAGCTCCA GGACTCCAAA GAAGCAGCAC TACAGGAACG AAAGGGCTTA 
GAGCTCCAAG TGATGCAACT TCAGCAAGAG AAGGAGAGCT TGCAGGAAAA GCTGAAGGCA 
ACTGAGGAGG CAGCCAGTTC ATTCTCTGTT CTTCAGGCAC AGCTGGCCCA GGCTGAGCAG 
CTGGCCCAGA GCCTCCAAGA GGCTGCACAC CAGGAACAAG ATGCCCTTAA GTTCCAGCTA 
AGTGCTGAGA TTATGGACCA CCAGAACAGA CTAAAGACAG CCAATGAAGA GTGTGGGAGC 
CTCAGGGCCC AGCTAGAAGA ACAAGGCCAG GAGCTGCAAA TGACTAAGGA GGCTGTGCAG 
GAACTGAAGA TCACCAAGGC GACCATGGAG GAGAAGCTGA ATTGCACCGG TAGCCACCTT 
GCAGAGTGCC AGGCCACTTT GCTACGCAAA GATGAAGAAA GCGCTATGCT TCGAATCAAC 
CTAGAGAGAA CACAGAAGGA ACTTGAAAAG GCTACATCAA AATTCCAAGA ATATTACAAC 
AAACTCTGCC AGGAGGTGAC AAACAGGGAA AGGAATGACC AGAAGATGCT TGCAGACCTA 
GATGACCTGA ACAGAACCAA GAAATACCTT GAGGAGCGGC TGATAGAGCT GCTCAGGGAC 
AAAGATGCTC TCTGGCAAAA GTCCGATGCA CTGGAATTCC AGCAGAAGCT CAGTGCTGAA 
GAGAAATGTC TTGGGGACAT GGAGGCCAAC CACTGCCATG ACTGCAAGCG GGAGTTCAGC 
TGGATAGTGC GGCGGCACCA CTGCAGGTTA TGTGGCCGAA TATTCTGTTA CTACTGCTGT 
AACAACTATG TTGTGACTAA GCCCAGTGGC AAGAAGGAAC GGTGCTGCCG AGCCTGCTTC 
CAGAAGTTTG GTGAAAGCTC TGGATCCCCT GACAGCAGTG GTTCGGGCAC TAGCCAGGGA 
GAGCCCAGCC CCATGGTGTC ACCAGCTGAA GCAGCTCCCC AGTCCATAGG AAGCCAAGGA 
ATAAACCCAG TCTGCAGACC ACCAGATGAT GCTGTGTTTG ACATCATCAC CGATGAGGAA 
CTGTGCCAGA TCCAAGAATC TGGCTCCTCC TTGCCTGAAA CACCCACCGA AACTGATTCG 
ATGGACCCAA ATATGGCTGA ACAGGACACC ACATCAAACT CATTAACCCC TGAAGACACT 
GAAGACATGC CCCTGGGGCA GGATGCTGAA ATCTGCTTGC TGAAGTCAGG AGAGCTGATG 
ATCAAATTAC CCCTCACAGT AGAGGAGATC GCCAGCTTTG GGGAGGGAAA CAGGGAGCTG 
TTTGTGAGGT CCAGTACCTA CAGCCTGATC CCCATCACCG TGGCTGAGCC CGGCCTTACC 
ATCAGCTGGG TCTTCTCTTC TGATCCCAAG AGCATCTCCT TCAGTGTGGT CTTCCAAGAG 
ACAGAAGACA CGCCACTCGA CCAGTGCAAG GTCCTCATTC CCACCACACG CTGCAATTCC 
CACAAGGAGA GCATCCGGGG CCAGCTGAAG GTCCGAACCC CTGGCATCTA CTTGCTCATC 
TTTGACAACA CCTTTTCCAG ATTTATCTCC AAAAAAGTAT TTTACCACCT GACCGTTGAC 
CGGCCTGTGA TCTACGATGG AAGTGATTTC CCATAG

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

Fyco1 ( XM_017595602.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017451091.1 Rattus norvegicus FYVE and coiled-coil domain containing 1 (Fyco1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa05039
Clone ID Related Accession (Same CDS sequence)	XM_017595602.1 , NM_001106870.1
Accession Version	XM_017595602.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4356bp) 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	FYVE and coiled-coil domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005107.4) 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##

ATGGCTTCTA GCAGCACTGA GACGCAGCTC CAGAGGATCA TCCGTGATCT ACAAGATGCA 
GTGACAGAAC TAAGCAATGA ATTTAAGGAA GGCGGAGAAC CAATCACAGA TGACAGCACC 
AGCTTGCACA AGTTTTCTTA CAAACTTGAG TATCTTCTGC AATTTGATCA GAAGGAGAAG 
GCTAGCCTCC TGGGTAGCAA GAAGGACTAC TGGGATTACT TCTGTGCGTG CCTAGCCAAG 
GTGAAAGGAG CCAATGATGG GATTCGATTC GTCAGGTCCA TCTCTGAGCT CCGAACATCT 
CTAGGAAAGG GGAGAGCCTT CATTCGCTAC TCTTTGGTGC ACCAGAGGTT GGCAGACACC 
TTGCAGCAGT GCTTCATGAA CACCAAAGTG ACCAGTGACT GGTATTATGC AAGAAGCCCC 
TTTCTGAAGC CAAAGCTGAG CTCTGACATT GTGGGCCAGC TGTATGAGCT GACTGAGGTT 
CAGTTTGATC TAGCATCAAG AGGCTACGAC TTGGATGCCG CCTGGCCAAC ATTTGCCAGG 
AGGACGCTAG CCACCAGCTC TTCTTACATG TGGAAACCCC CCAGCCGAAG CTCCAGCATG 
AGTAGTTTAG TGAGCAACTA CTTGCAGACT CAGGAGATGG CCTCCAGTCT TGACCTGAAT 
AGTTCTCTAA ACAATGAAGC ACTAGAAAGC TTCGATGAGA TGCGGCTGGA GCTGGACCAG 
TTGGAGGTTC GGGAGAAACA GCTACAAGAG CACGTGCAGC AGCTAAACAG GGAAAACCAA 
GCACTTCGAA TGACGATCAG CAAGCAAGGG GGGCAACTTC AGGTAGAGAA GGAAACGGGG 
TACCTTGCAG TCGAGGATAG CATTGACCTC GTGAGCCTGG TGGCAGAGCT CCAGAAGCAG 
GGGGAGGTCA CCCAGGCCAC AGTGAAGAAG CTACAGACAT GTCTACAGGC TCTGGAGTTA 
GCTGTAGACC AGAAAGAGAC CAGCCACTCA GTCTTGCAGC TTGAGAACGT GGCACAGGCA 
CTTGACGCTG TGAGAGACTC CTTGGGTAGG AAGAACCAGC TTCTAGCCAG CCTTTCTGAA 
TGCCTCACTA GGGCTGAAAA AAGGGAACAT CCATCTCTGG ACACAAAGCT TCATCAAGAG 
CCAGTTCCTA CTGACCTGGC CCTGAAGTTC CAGGAGCTGA AGGGAAAACT TCAAACCCTA 
GAAGGAGAGA ACACCAAGGC CCAGGAGCTA AACAGGCAGC AAAGTCTCAA GCTAGAGCAG 
CTGGCCAAGG AGCTGCAGCT GAAGGAGGAA GCCCGAGCTA GCCTGGAACA CTTAGTGAAG 
GATGCGGTCC CACTTCAGGA AGAGCTATCC GGAAAGAAGC AAGAGTCAGC TCAGCTCCGA 
CGACAGCTTC AGGAATCCCT GGCCCACTTG AGCTCTGTGG AGGAGGAGCT GGCTGAAGCC 
AGACAGCAGG AAAAGCAGCA TCGAGAAGAA AAACAGCTAC TAGAGCAGGA GGCCAAGTCT 
CTGACATGGC AGCTGCAGCT CCTAGAGACC CAACTAGGAC AGGTGAGTCA GCTTGTGAGT 
GACCTGGAGG AGCAGAAGAA GCAACTCATG CAGGACAAAG ACCATCTCAG CCAGAAAGTA 
GGAACACTAG AGCAGCTAGC TGAGGCCCAT GGGGCAAGTA AGAGTAAAGA GGCTGTCCCA 
CCACAGGCTG GGGAGATGCC AGAAAAGGGG CAGCACTGCC TCCAGGAAGA ACAGGTAAAC 
AATGCCACAG TGCGAGGGGC AGACCAGGAC GAGTTACAAA AGGTCAACCA GGAGCTACAG 
AAGGAGCTGC AGAACATGGC TGTGCGCAAC CAGCTCCTAG AAGGCAAACT GCAGGCCTTG 
CAAACTGATT ACAAGGCACT GCAGCAGCGA GAGGCAGCAA TCCAGGGCTC TTTAGCCTCC 
CTGGAAGCTG AGCAGGCCAG CATCCGGCAG CTGGGAAACC AGATGGAAGC AAGCCTCCTG 
GCTGTGAGGA AAGCCAAAGA GACTATGAAG GCCCAGGTGG CAGAGAAGGA GGCTGCCCTG 
CAGAGTAAGG AGGGCGAGTG CCGGCAGCTG CAGGAAGAGG CAGAGCAGTG CCGGCTTCGG 
ACAGAGGCCC AGGCCCAGGA GCTCAGAGCT CTTGAGAACC AGTGCCAGCA GCAGATTCAA 
CTGATTGAGG TCCTCTCTGC AGAAAAAGGC CAACAGGGAC TCAGCCTACC CCAGGTCAAC 
ACAGCCCAAC TGGCCCTGTC TCAAGCACAG CTTGAAATTC ACCAGGGGGA AGCCCAGCGG 
TTACAGAATG AGGTGGTGGA CCTCCAGGCC AAGCTCCAGG TGGCCCTAGG TGATCGAGAC 
AAGTTACAGA GCCAACTGGG TGTGGCTGAG GCAGTTCTCG GGGAGCACAA GACCCTGGTG 
CAACAACTGA AAGAACAGAA TGAAGCCCTC AACAGGGCCC ATATTCAGGA GCTGCTGCAG 
TGCTCAGAGA GAGAGGGGAT ACTGCAGGAG GAGAGCATCT ACAAGGCCCA GAAGCAGGAG 
CAAGAGCTAC GAGCCCTGCA GGCAGAGCTG TCACAGGTGA GGTGCAGCTC TGAGGGAGCC 
CACCTGGAGC ATGCAGAGCT ACAGGACCAG CTGCACCGAG CCAACACAGA CACAGCTGAG 
CTAGGCATAC AGGTCTGTGC ACTGACAGCT GAGAAGGATC GGATGGAGGG GGCCCTGGCC 
AGCCTAGCCC AGGAGCTCCA GGACTCCAAA GAAGCAGCAC TACAGGAACG AAAGGGCTTA 
GAGCTCCAAG TGATGCAACT TCAGCAAGAG AAGGAGAGCT TGCAGGAAAA GCTGAAGGCA 
ACTGAGGAGG CAGCCAGTTC ATTCTCTGTT CTTCAGGCAC AGCTGGCCCA GGCTGAGCAG 
CTGGCCCAGA GCCTCCAAGA GGCTGCACAC CAGGAACAAG ATGCCCTTAA GTTCCAGCTA 
AGTGCTGAGA TTATGGACCA CCAGAACAGA CTAAAGACAG CCAATGAAGA GTGTGGGAGC 
CTCAGGGCCC AGCTAGAAGA ACAAGGCCAG GAGCTGCAAA TGACTAAGGA GGCTGTGCAG 
GAACTGAAGA TCACCAAGGC GACCATGGAG GAGAAGCTGA ATTGCACCGG TAGCCACCTT 
GCAGAGTGCC AGGCCACTTT GCTACGCAAA GATGAAGAAA GCGCTATGCT TCGAATCAAC 
CTAGAGAGAA CACAGAAGGA ACTTGAAAAG GCTACATCAA AATTCCAAGA ATATTACAAC 
AAACTCTGCC AGGAGGTGAC AAACAGGGAA AGGAATGACC AGAAGATGCT TGCAGACCTA 
GATGACCTGA ACAGAACCAA GAAATACCTT GAGGAGCGGC TGATAGAGCT GCTCAGGGAC 
AAAGATGCTC TCTGGCAAAA GTCCGATGCA CTGGAATTCC AGCAGAAGCT CAGTGCTGAA 
GAGAAATGTC TTGGGGACAT GGAGGCCAAC CACTGCCATG ACTGCAAGCG GGAGTTCAGC 
TGGATAGTGC GGCGGCACCA CTGCAGGTTA TGTGGCCGAA TATTCTGTTA CTACTGCTGT 
AACAACTATG TTGTGACTAA GCCCAGTGGC AAGAAGGAAC GGTGCTGCCG AGCCTGCTTC 
CAGAAGTTTG GTGAAAGCTC TGGATCCCCT GACAGCAGTG GTTCGGGCAC TAGCCAGGGA 
GAGCCCAGCC CCATGGTGTC ACCAGCTGAA GCAGCTCCCC AGTCCATAGG AAGCCAAGGA 
ATAAACCCAG TCTGCAGACC ACCAGATGAT GCTGTGTTTG ACATCATCAC CGATGAGGAA 
CTGTGCCAGA TCCAAGAATC TGGCTCCTCC TTGCCTGAAA CACCCACCGA AACTGATTCG 
ATGGACCCAA ATATGGCTGA ACAGGACACC ACATCAAACT CATTAACCCC TGAAGACACT 
GAAGACATGC CCCTGGGGCA GGATGCTGAA ATCTGCTTGC TGAAGTCAGG AGAGCTGATG 
ATCAAATTAC CCCTCACAGT AGAGGAGATC GCCAGCTTTG GGGAGGGAAA CAGGGAGCTG 
TTTGTGAGGT CCAGTACCTA CAGCCTGATC CCCATCACCG TGGCTGAGCC CGGCCTTACC 
ATCAGCTGGG TCTTCTCTTC TGATCCCAAG AGCATCTCCT TCAGTGTGGT CTTCCAAGAG 
ACAGAAGACA CGCCACTCGA CCAGTGCAAG GTCCTCATTC CCACCACACG CTGCAATTCC 
CACAAGGAGA GCATCCGGGG CCAGCTGAAG GTCCGAACCC CTGGCATCTA CTTGCTCATC 
TTTGACAACA CCTTTTCCAG ATTTATCTCC AAAAAAGTAT TTTACCACCT GACCGTTGAC 
CGGCCTGTGA TCTACGATGG AAGTGATTTC CCATAG

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

RefSeq	XP_017451091.1
CDS	1275..5630
Translation	MASSSTETQLQRIIRDLQDAVTELSNEFKEGGEPITDDSTSLHKFSYKLEYLLQFDQKEKASLLGSKKDYWDYFCACLAKVKGANDGIRFVRSISELRTSLGKGRAFIRYSLVHQRLADTLQQCFMNTKVTSDWYYARSPFLKPKLSSDIVGQLYELTEVQFDLASRGYDLDAAWPTFARRTLATSSSYMWKPPSRSSSMSSLVSNYLQTQEMASSLDLNSSLNNEALESFDEMRLELDQLEVREKQLQEHVQQLNRENQALRMTISKQGGQLQVEKETGYLAVEDSIDLVSLVAELQKQGEVTQATVKKLQTCLQALELAVDQKETSHSVLQLENVAQALDAVRDSLGRKNQLLASLSECLTRAEKREHPSLDTKLHQEPVPTDLALKFQELKGKLQTLEGENTKAQELNRQQSLKLEQLAKELQLKEEARASLEHLVKDAVPLQEELSGKKQESAQLRRQLQESLAHLSSVEEELAEARQQEKQHREEKQLLEQEAKSLTWQLQLLETQLGQVSQLVSDLEEQKKQLMQDKDHLSQKVGTLEQLAEAHGASKSKEAVPPQAGEMPEKGQHCLQEEQVNNATVRGADQDELQKVNQELQKELQNMAVRNQLLEGKLQALQTDYKALQQREAAIQGSLASLEAEQASIRQLGNQMEASLLAVRKAKETMKAQVAEKEAALQSKEGECRQLQEEAEQCRLRTEAQAQELRALENQCQQQIQLIEVLSAEKGQQGLSLPQVNTAQLALSQAQLEIHQGEAQRLQNEVVDLQAKLQVALGDRDKLQSQLGVAEAVLGEHKTLVQQLKEQNEALNRAHIQELLQCSEREGILQEESIYKAQKQEQELRALQAELSQVRCSSEGAHLEHAELQDQLHRANTDTAELGIQVCALTAEKDRMEGALASLAQELQDSKEAALQERKGLELQVMQLQQEKESLQEKLKATEEAASSFSVLQAQLAQAEQLAQSLQEAAHQEQDALKFQLSAEIMDHQNRLKTANEECGSLRAQLEEQGQELQMTKEAVQELKITKATMEEKLNCTGSHLAECQATLLRKDEESAMLRINLERTQKELEKATSKFQEYYNKLCQEVTNRERNDQKMLADLDDLNRTKKYLEERLIELLRDKDALWQKSDALEFQQKLSAEEKCLGDMEANHCHDCKREFSWIVRRHHCRLCGRIFCYYCCNNYVVTKPSGKKERCCRACFQKFGESSGSPDSSGSGTSQGEPSPMVSPAEAAPQSIGSQGINPVCRPPDDAVFDIITDEELCQIQESGSSLPETPTETDSMDPNMAEQDTTSNSLTPEDTEDMPLGQDAEICLLKSGELMIKLPLTVEEIASFGEGNRELFVRSSTYSLIPITVAEPGLTISWVFSSDPKSISFSVVFQETEDTPLDQCKVLIPTTRCNSHKESIRGQLKVRTPGIYLLIFDNTFSRFISKKVFYHLTVDRPVIYDGSDFP

Target ORF information:

RefSeq Version	XM_017595602.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus FYVE and coiled-coil domain containing 1 (Fyco1), transcript variant X1, mRNA.

Target ORF information:

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

XM_017595602.1

ORF Insert Sequence:

ATGGCTTCTA GCAGCACTGA GACGCAGCTC CAGAGGATCA TCCGTGATCT ACAAGATGCA 
GTGACAGAAC TAAGCAATGA ATTTAAGGAA GGCGGAGAAC CAATCACAGA TGACAGCACC 
AGCTTGCACA AGTTTTCTTA CAAACTTGAG TATCTTCTGC AATTTGATCA GAAGGAGAAG 
GCTAGCCTCC TGGGTAGCAA GAAGGACTAC TGGGATTACT TCTGTGCGTG CCTAGCCAAG 
GTGAAAGGAG CCAATGATGG GATTCGATTC GTCAGGTCCA TCTCTGAGCT CCGAACATCT 
CTAGGAAAGG GGAGAGCCTT CATTCGCTAC TCTTTGGTGC ACCAGAGGTT GGCAGACACC 
TTGCAGCAGT GCTTCATGAA CACCAAAGTG ACCAGTGACT GGTATTATGC AAGAAGCCCC 
TTTCTGAAGC CAAAGCTGAG CTCTGACATT GTGGGCCAGC TGTATGAGCT GACTGAGGTT 
CAGTTTGATC TAGCATCAAG AGGCTACGAC TTGGATGCCG CCTGGCCAAC ATTTGCCAGG 
AGGACGCTAG CCACCAGCTC TTCTTACATG TGGAAACCCC CCAGCCGAAG CTCCAGCATG 
AGTAGTTTAG TGAGCAACTA CTTGCAGACT CAGGAGATGG CCTCCAGTCT TGACCTGAAT 
AGTTCTCTAA ACAATGAAGC ACTAGAAAGC TTCGATGAGA TGCGGCTGGA GCTGGACCAG 
TTGGAGGTTC GGGAGAAACA GCTACAAGAG CACGTGCAGC AGCTAAACAG GGAAAACCAA 
GCACTTCGAA TGACGATCAG CAAGCAAGGG GGGCAACTTC AGGTAGAGAA GGAAACGGGG 
TACCTTGCAG TCGAGGATAG CATTGACCTC GTGAGCCTGG TGGCAGAGCT CCAGAAGCAG 
GGGGAGGTCA CCCAGGCCAC AGTGAAGAAG CTACAGACAT GTCTACAGGC TCTGGAGTTA 
GCTGTAGACC AGAAAGAGAC CAGCCACTCA GTCTTGCAGC TTGAGAACGT GGCACAGGCA 
CTTGACGCTG TGAGAGACTC CTTGGGTAGG AAGAACCAGC TTCTAGCCAG CCTTTCTGAA 
TGCCTCACTA GGGCTGAAAA AAGGGAACAT CCATCTCTGG ACACAAAGCT TCATCAAGAG 
CCAGTTCCTA CTGACCTGGC CCTGAAGTTC CAGGAGCTGA AGGGAAAACT TCAAACCCTA 
GAAGGAGAGA ACACCAAGGC CCAGGAGCTA AACAGGCAGC AAAGTCTCAA GCTAGAGCAG 
CTGGCCAAGG AGCTGCAGCT GAAGGAGGAA GCCCGAGCTA GCCTGGAACA CTTAGTGAAG 
GATGCGGTCC CACTTCAGGA AGAGCTATCC GGAAAGAAGC AAGAGTCAGC TCAGCTCCGA 
CGACAGCTTC AGGAATCCCT GGCCCACTTG AGCTCTGTGG AGGAGGAGCT GGCTGAAGCC 
AGACAGCAGG AAAAGCAGCA TCGAGAAGAA AAACAGCTAC TAGAGCAGGA GGCCAAGTCT 
CTGACATGGC AGCTGCAGCT CCTAGAGACC CAACTAGGAC AGGTGAGTCA GCTTGTGAGT 
GACCTGGAGG AGCAGAAGAA GCAACTCATG CAGGACAAAG ACCATCTCAG CCAGAAAGTA 
GGAACACTAG AGCAGCTAGC TGAGGCCCAT GGGGCAAGTA AGAGTAAAGA GGCTGTCCCA 
CCACAGGCTG GGGAGATGCC AGAAAAGGGG CAGCACTGCC TCCAGGAAGA ACAGGTAAAC 
AATGCCACAG TGCGAGGGGC AGACCAGGAC GAGTTACAAA AGGTCAACCA GGAGCTACAG 
AAGGAGCTGC AGAACATGGC TGTGCGCAAC CAGCTCCTAG AAGGCAAACT GCAGGCCTTG 
CAAACTGATT ACAAGGCACT GCAGCAGCGA GAGGCAGCAA TCCAGGGCTC TTTAGCCTCC 
CTGGAAGCTG AGCAGGCCAG CATCCGGCAG CTGGGAAACC AGATGGAAGC AAGCCTCCTG 
GCTGTGAGGA AAGCCAAAGA GACTATGAAG GCCCAGGTGG CAGAGAAGGA GGCTGCCCTG 
CAGAGTAAGG AGGGCGAGTG CCGGCAGCTG CAGGAAGAGG CAGAGCAGTG CCGGCTTCGG 
ACAGAGGCCC AGGCCCAGGA GCTCAGAGCT CTTGAGAACC AGTGCCAGCA GCAGATTCAA 
CTGATTGAGG TCCTCTCTGC AGAAAAAGGC CAACAGGGAC TCAGCCTACC CCAGGTCAAC 
ACAGCCCAAC TGGCCCTGTC TCAAGCACAG CTTGAAATTC ACCAGGGGGA AGCCCAGCGG 
TTACAGAATG AGGTGGTGGA CCTCCAGGCC AAGCTCCAGG TGGCCCTAGG TGATCGAGAC 
AAGTTACAGA GCCAACTGGG TGTGGCTGAG GCAGTTCTCG GGGAGCACAA GACCCTGGTG 
CAACAACTGA AAGAACAGAA TGAAGCCCTC AACAGGGCCC ATATTCAGGA GCTGCTGCAG 
TGCTCAGAGA GAGAGGGGAT ACTGCAGGAG GAGAGCATCT ACAAGGCCCA GAAGCAGGAG 
CAAGAGCTAC GAGCCCTGCA GGCAGAGCTG TCACAGGTGA GGTGCAGCTC TGAGGGAGCC 
CACCTGGAGC ATGCAGAGCT ACAGGACCAG CTGCACCGAG CCAACACAGA CACAGCTGAG 
CTAGGCATAC AGGTCTGTGC ACTGACAGCT GAGAAGGATC GGATGGAGGG GGCCCTGGCC 
AGCCTAGCCC AGGAGCTCCA GGACTCCAAA GAAGCAGCAC TACAGGAACG AAAGGGCTTA 
GAGCTCCAAG TGATGCAACT TCAGCAAGAG AAGGAGAGCT TGCAGGAAAA GCTGAAGGCA 
ACTGAGGAGG CAGCCAGTTC ATTCTCTGTT CTTCAGGCAC AGCTGGCCCA GGCTGAGCAG 
CTGGCCCAGA GCCTCCAAGA GGCTGCACAC CAGGAACAAG ATGCCCTTAA GTTCCAGCTA 
AGTGCTGAGA TTATGGACCA CCAGAACAGA CTAAAGACAG CCAATGAAGA GTGTGGGAGC 
CTCAGGGCCC AGCTAGAAGA ACAAGGCCAG GAGCTGCAAA TGACTAAGGA GGCTGTGCAG 
GAACTGAAGA TCACCAAGGC GACCATGGAG GAGAAGCTGA ATTGCACCGG TAGCCACCTT 
GCAGAGTGCC AGGCCACTTT GCTACGCAAA GATGAAGAAA GCGCTATGCT TCGAATCAAC 
CTAGAGAGAA CACAGAAGGA ACTTGAAAAG GCTACATCAA AATTCCAAGA ATATTACAAC 
AAACTCTGCC AGGAGGTGAC AAACAGGGAA AGGAATGACC AGAAGATGCT TGCAGACCTA 
GATGACCTGA ACAGAACCAA GAAATACCTT GAGGAGCGGC TGATAGAGCT GCTCAGGGAC 
AAAGATGCTC TCTGGCAAAA GTCCGATGCA CTGGAATTCC AGCAGAAGCT CAGTGCTGAA 
GAGAAATGTC TTGGGGACAT GGAGGCCAAC CACTGCCATG ACTGCAAGCG GGAGTTCAGC 
TGGATAGTGC GGCGGCACCA CTGCAGGTTA TGTGGCCGAA TATTCTGTTA CTACTGCTGT 
AACAACTATG TTGTGACTAA GCCCAGTGGC AAGAAGGAAC GGTGCTGCCG AGCCTGCTTC 
CAGAAGTTTG GTGAAAGCTC TGGATCCCCT GACAGCAGTG GTTCGGGCAC TAGCCAGGGA 
GAGCCCAGCC CCATGGTGTC ACCAGCTGAA GCAGCTCCCC AGTCCATAGG AAGCCAAGGA 
ATAAACCCAG TCTGCAGACC ACCAGATGAT GCTGTGTTTG ACATCATCAC CGATGAGGAA 
CTGTGCCAGA TCCAAGAATC TGGCTCCTCC TTGCCTGAAA CACCCACCGA AACTGATTCG 
ATGGACCCAA ATATGGCTGA ACAGGACACC ACATCAAACT CATTAACCCC TGAAGACACT 
GAAGACATGC CCCTGGGGCA GGATGCTGAA ATCTGCTTGC TGAAGTCAGG AGAGCTGATG 
ATCAAATTAC CCCTCACAGT AGAGGAGATC GCCAGCTTTG GGGAGGGAAA CAGGGAGCTG 
TTTGTGAGGT CCAGTACCTA CAGCCTGATC CCCATCACCG TGGCTGAGCC CGGCCTTACC 
ATCAGCTGGG TCTTCTCTTC TGATCCCAAG AGCATCTCCT TCAGTGTGGT CTTCCAAGAG 
ACAGAAGACA CGCCACTCGA CCAGTGCAAG GTCCTCATTC CCACCACACG CTGCAATTCC 
CACAAGGAGA GCATCCGGGG CCAGCTGAAG GTCCGAACCC CTGGCATCTA CTTGCTCATC 
TTTGACAACA CCTTTTCCAG ATTTATCTCC AAAAAAGTAT TTTACCACCT GACCGTTGAC 
CGGCCTGTGA TCTACGATGG AAGTGATTTC CCATAG

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

PubMed

FYCO1 Contains a C-terminally Extended, LC3A/B-preferring LC3-interacting Region (LIR) Motif Required for Efficient Maturation of Autophagosomes during Basal Autophagy.
The Journal of biological chemistry290(49)29361-74(2015 Dec)
Olsvik HL,Lamark T,Takagi K,Larsen KB,Evjen G,?vervatn A,Mizushima T,Johansen T

Defining the membrane proteome of NK cells.
Journal of mass spectrometry : JMS45(1)1-25(2010 Jan)
Ghosh D,Lippert D,Krokhin O,Cortens JP,Wilkins JA

FYCO1 is a Rab7 effector that binds to LC3 and PI3P to mediate microtubule plus end-directed vesicle transport.
The Journal of cell biology188(2)253-69(2010 Jan)
Pankiv S,Alemu EA,Brech A,Bruun JA,Lamark T,Overvatn A,Bj?rk?y G,Johansen T

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Fyco1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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