UNC80 (NM_182587) Human Untagged Clone
CAT#: SC328113
UNC80 (untagged)-Human unc-80 homolog (C. elegans) (UNC80) transcript variant 2
CNY 62,230.00
Product images
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | C2orf21; UNC-80 |
Vector | pCMV6-XL5 |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | None |
Sequence Data |
>NCBI ORF sequence for NM_182587, the custom clone sequence may differ by one or more nucleotides
ATGGTGAAGAGGAAGAGCTCCGAGGGCCAGGAGCAGGACGGCGGCCGCGGCATCCCCCTG CCCATCCAGACCTTCCTGTGGCGGCAAACCAGTGCATTTTTGAGGCCCAAACTGGGGAAG CAATATGAAGCTTCTTGTGTGTCCTTTGAGCGAGTGTTGGTAGAAAACAAGCTGCATGGC CTCTCTCCAGCTCTCTCTGAAGCCATCCAGAGCATTTCCAGATGGGAACTGGTGCAAGCT GCTTTGCCTCATGTCCTCCACTGCACTGCAACCCTGCTTTCAAACCGAAACAAGCTAGGC CACCAGGATAAATTGGGTGTTGCTGAGACAAAGCTCCTTCACACTCTACACTGGATGCTT CTGGAGGCCCCCCAGGACTGCAACAATGAGCGGTTTGGGGGTACAGACCGAGGCTCCAGC TGGGGTGGAAGCAGCAGTGCTTTCATCCACCAGGTTGAAAACCAGGGTTCTCCAGGGCAG CCTTGCCAAAGCAGCTCTAATGACGAAGAAGAGAACAACCGAAGAAAGATCTTCCAGAAC TCCATGGCTACTGTGGAGCTCTTCGTGTTTCTGTTTGCTCCCCTGGTACACAGGATCAAG GAATCTGACCTCACCTTCCGTCTGGCCAGTGGGCTTGTTATATGGCAGCCCATGTGGGAA CACAGACAGCCCGGAGTCTCTGGCTTTACCGCACTGGTGAAGCCCATCAGGAACATCATT ACAGCTAAGAGAAGTTCTCCTATCAACAGTCAAAGCCGGACCTGTGAATCACCAAATCAA GATGCAAGACACTTAGAGGGACTCCAGGTGGTTTGTGAAACATTCCAGTCTGATTCCATC TCACCCAAGGCCACCATTTCAGGCTGTCACCGAGGAAACTCCTTTGATGGAAGTCTGTCC TCCCAAACTTCCCAGGAAAGAGGCCCATCACATTCCAGGGCCTCTCTTGTGATACCTCCG TGCCAAAGGTCCCGCTATGCCACCTACTTTGACGTTGCTGTTCTGCGCTGCCTACTTCAG CCCCATTGGTCTGAGGAAGGCACTCAGTGGTCTCTGATGTACTATCTACAAAGGCTGCGA CACATGTTGGAAGAGAAGCCAGAAAAGCCTCCGGAGCCAGATATTCCTCTCCTGCCCAGA CCCAGGAGTAGCTCCATGGTGGCAGCAGCTCCCTCACTAGTGAACACCCACAAAACCCAA GATCTCACCATGAAGTGTAACGAGGAGGAAAAATCTCTTAGCTCTGAGGCCTTTTCCAAG GTTTCACTGACCAATCTGCGTAGATCTGCAGTCCCAGATCTTTCTTCAGACCTGGGCATG AATATTTTTAAAAAGTTCAAGAGCCGCAAAGAAGACCGAGAGAGGAAAGGCTCCATTCCA TTCCACCACACAGGCAAGAGGAGGCCACGGAGAATGGGAGTGCCCTTCCTGCTTCACGAG GACCACCTGGATGTGTCCCCCACGCGCAGCACATTCTCCTTTGGAAGTTTCTCTGGGCTG GGAGAAGACAGGCGAGGAATTGAGAAAGGAGGCTGGCAAACCACCATTTTAGGGAAATTG ACCCGGCGAGGCAGTTCAGATGCAGCCACTGAGATGGAGAGTCTGAGCGCCAGGCATTCC CACTCCCATCACACCCTGGTAAGCGACCTGCCGGACCCCTCCAACAGCCATGGAGAAAAC ACCGTCAAGGAAGTGCGATCTCAGATCTCCACCATCACAGTTGCGACCTTCAATACCACT TTGGCGTCATTCAACGTAGGCTATGCAGACTTTTTCAATGAGCATATGAGGAAACTCTGC AACCAGGTGCCTATCCCGGAGATGCCACATGAACCTCTGGCATGTGCTAACCTACCTCGA AGCCTCACAGACTCCTGCATAAACTACAGCTACCTAGAGGACACAGAACATATTGACGGG ACCAATAACTTTGTCCACAAGAATGGAATGCTTGATCTTTCTGTAGTTCTGAAGGCTGTT TATCTTGTCCTTAATCATGACATCAGCTCTCGTATCTGTGACGTGGCGCTAAACATTGTG GAATGCTTGCTTCAACTTGGTGTGGTGCCCTGTGTAGAAAAGAATAGAAAGAAGAGTGAA AACAAGGAAAATGAGACCTTGGAAAAGAGGCCAAGTGAGGGAGCTTTCCAATTCAAAGGA GTATCTGGAAGTTCCACCTGTGGATTCGGAGGCCCTGCTGTTAGTGGAGCTGGAGATGGT GGAGGAGAAGAAGGAGGAGGTGGAGATGGAGGAGGTGGAGGAGGTGATGGAGGAGGAGGT GGAGGAGGTGGAGGCGGCCCTTATGAGAAGAATGATAAGAACCAAGAGAAGGATGAAAGT ACACCTGTAAGCAACCATAGGCTTGCTCTAACAATGCTCATCAAAATAGTGAAGTCTTTG GGATGTGCCTATGGTTGTGGTGAAGGACACCGAGGGCTCTCTGGAGATCGTCTGAGACAC CAGGCCCAGAACTGCCTCACTAAGCTATACAAGCTAGATAAGATGCAGTTCCGACAAACC ATGAGGGACTATGTGAACAAGGACTCTCTCAATAATGTAGTGGACTTCTTGCATGCTTTG CTAGGATTTTGTATGGAGCCGGTCACTGACAACAAGGCTGGGTTTGGAAATAACTTCACC ACAGTGGACAACAAATCCACAGCCCAAAATGTGGAAGGCATTATCGTCAGCGCCATGTTT AAATCCCTCATCACACGCTGCGCTTCAACCACACATGAATTGCACAGCCCTGAGAATCTG GGACTGTATTGTGACATTCGTCAGCTGGTCCAGTTTATCAAAGAGGCTCATGGGAATGTC TTCAGGAGAGTGGCCCTCAGCGCTCTGCTTGACAGTGCCGAGAAGTTAGCACCAGGGAAA AAGGTGGAGGAGAATGAACAGGAATCTAAGCCTGCAGGCAGTAAAAGGTCAGAGGCGGGA AGCATTGTGGATAAAGGCCAGGTATCCTCTGCACCTGAGGAATGTCGCAGCTTCATGTCT GGTCGCCCCTCACAGACTCCAGAGCACGATGAACAAATGCAAGGAGCCAACTTGGGGCGG AAAGATTTCTGGCGTAAGATGTTCAAGTCCCAGAGTGCAGCAAGTGACACCAGCAGCCAG TCTGAACAGGACACTTCAGAATGCACGACTGCCCACTCAGGGACCACCTCTGACCGACGT GCCCGCTCACGATCCCGCAGAATTTCCCTCCGAAAGAAGCTTAAACTCCCCATAGGTAAA AGGAACTGGCTGAAGAGATCATCCCTCTCAGGCCTGGCAGATGGTGTGGAGGACCTCCTG GACATTAGCTCTGTGGACCGACTCTCTTTCATCAGGCAAAGCTCCAAGGTCAAATTCACT AGTGCTGTGAAGCTTTCTGAAGGTGGGCCAGGAAGTGGCATGGAAAATGGAAGAGATGAA GAGGAGAATTTCTTCAAGCGTCTTGGTTGCCACAGTTTTGATGATCATCTCTCTCCCAAC CAAGATGGTGGAAAAAGCAAAAACGTGGTGAATCTTGGAGCAATCCGACAAGGCATGAAA CGCTTCCAATTTCTGTTAAACTGCTGTGAGCCAGGGACAATTCCTGATGCCTCCATCCTA GCAGCTGCCTTGGATCTAGAAGCCCCTGTGGTGGCCAGAGCAGCCTTGTTCCTGGAATGT GCTCGTTTTGTTCACCGCTGCAACCGTGGCAACTGGCCAGAGTGGATGAAAGGGCACCAC GTGAACATCACCAAGAAAGGACTTTCCCGGGGACGCTCTCCCATTGTGGGCAACAAGCGA AACCAGAAGCTGCAGTGGAATGCAGCCAAGCTCTTCTACCAATGGGGAGACGCAATTGGC GTCCGATTGAATGAGCTGTGCCACGGGGAAAGTGAGAGCCCAGCCAACCTGCTGGGTCTC ATTTACGATGAAGAGACCAAGAGGAGACTTAGAAAGGAGGATGAGGAGGAAGACTTTTTA GATGACAGTACTGTGAACCCCTCTAAATGCGGTTGCCCCTTTGCCTTGAAGATGGCAGCA TGTCAGCTTCTTCTGGAGATTACCACCTTCCTGCGAGAGACCTTTTCTTGCCTGCCCAGA CCTCGCACTGAGCCTCTGGTGGACTTGGAGAGCTGCAGACTTCGTTTGGATCCCGAGTTG GACCGGCACAGATATGAGAGGAAGATCAGCTTTGCTGGGGTCCTGGACGAAAATGAAGAC TCAAAAGATTCTCTCCACAGCAGCAGCCACACTCTCAAATCAGATGCAGGAGTCGAGGAG AAGAAAGAAGGGAGTCCTTGGAGTGCAAGCGAGCCCAGCATTGAGCCAGAGGGAATGAGT AATGCCGGCGCGGAGGAGAATTACCACAGAAACATGTCGTGGCTTCATGTGATGATCTTG CTGTGCAATCAGCAGAGTTTCATCTGCACTCACGTTGACTACTGCCATCCCCACTGCTAC CTGCACCACAGCCGCTCCTGTGCCCGACTGGTCAGAGCCATCAAGCTACTCTATGGAGAC AGTGTGGACTCCCTGAGGGAAAGCAGCAACATCAGCAGTGTGGCTCTCCGGGGCAAGAAA CAGAAAGAATGCTCAGATAAGTCATGCCTGAGGACACCTTCTCTAAAGAAGAGAGTTTCA GATGCCAATCTGGAAGGAAAAAAAGATTCCGGAATGCTGAAGTACATCAGACTTCAGGTG ATGAGCTTGTCGCCTGCTCCCTTATCTCTGTTAATCAAGGCAGCACCAATTCTGACAGAG GAGATGTACGGAGACATCCAGCCAGCTGCCTGGGAGCTCCTGCTCAGCATGGATGAGCAC ATGGCAGGGGCAGCAGCTGCCATGTTCCTGCTGTGTGCAGTGAAGGTGCCTGAGGCCGTG TCCGACATGCTGATGTCAGAGTTCCACCACCCGGAGACTGTGCAGAGGCTGAACGCTGTC CTCAAGTTCCACACGCTCTGGAGGTTTCGCTATCAGGTCTGGCCCCGGATGGAGGAAGGG GCACAGCAGATTTTTAAGATTCCGCCTCCCAGTATCAATTTCACCCTTCCCTCGCCGGTG CTTGGAATGCCATCCGTCCCAATGTTTGACCCACCGTGGGTTCCTCAGTGCAGCGGGAGT GTCCAGGACCCCATTAATGAAGACCAGTCTAAATCCTTTTCAGCCCGGGCTGTGTCCCGC TCCCATCAAAGGGCAGAACACATCTTAAAGAACTTGCAGCAGGAGGAAGAAAAGAAACGA CTTGGTAGAGAAGCCAGCCTCATCACTGCCATCCCCATCACCCAGGAGGCTTGCTATGAG CCCACATGCACGCCCAACTCAGAACCGGAAGAAGAAGTAGAAGAAGTCACCAATCTGGCA TCCCGTCGACTGTCTGTGAGTCCATCCTGCACCTCCAGCACTTCCCACAGGAATTATTCC TTCCGCCGCGGGTCAGTCTGGTCAGTGCGTTCAGCCGTCAGTGCTGAAGATGAGGAACAT ACCACTGAACACACGCCGAACCACCATGTGCCTCAGCCCCCACAAGCAGTGTTCCCAGCA TGCATCTGTGCAGCAGTACTTCCCATTGTTCATCTGATGGAGGATGGTGAGGTGCGGGAA GATGGAGTAGCAGTGAGTGCTGTGGCTCAACAAGTCTTATGGAACTGTCTAATTGAAGAT CCATCAACGGTTCTTCGACATTTTCTGGAAAAACTGACCATCAGCAATAGACAAGATGAG TTAATGTACATGCTGCGCAAACTTCTCTTGAATATTGGAGACTTTCCTGCTCAGACATCT CACATCCTATTCAACTATTTGGTAGGATTAATCATGTACTTTGTGCGGACCCCCTGCGAG TGGGGGATGGATGCCATTTCAGCCACCCTGACATTCCTGTGGGAGGTGGTGGGTTACGTG GAGGGCCTCTTCTTCAAGGATCTCAAGCAGACGATGAAGAAGGAGCAGTGTGAGGTGAAG CTCCTGGTGACCGCTTCAATGCCAGGTACTAAAACCTTGGTAGTTCATGGACAGAATGAG TGCGATATCCCAACCCAGTTACCAGTCCATGAAGACACTCAATTTGAAGCCCTGTTGAAG GAGTGTCTGGAGTTTTTTAATATCCCAGAATCCCAGTCAACACATTATTTTCTTATGGAT AAACGATGGAACCTTATCCACTACAATAAGACCTATGTTCGAGATATTTATCCTTTCCGG AGGTCAGTATCTCCCCAGCTGAATCTTGTACATATGCATCCAGAGAAGGGACAGGAGCTC ATTCAGAAACAGGTGTTCACCCGAAAGCTGGAAGAAGTAGGGCGGGTGTTGTTTCTCATC TCCCTAACCCAGAAGATCCCCACAGCCCACAAACAGTCCCACGTCTCCATGCTTCAGGAA GACCTCCTCCGCCTGCCCTCATTCCCTCGTAGTGCTATTGATGCTGAGTTTTCACTCTTC AGTGATCCTCAAGCTGGAAAGGAACTGTTTGGCCTCGACACTCTTCAGAAAAGCTTGTGG ATCCAGCTGCTGGAGGAAATGTTCCTGGGCATGCCGAGCGAGTTTCCATGGGGAGACGAA ATCATGCTTTTCCTCAACGTTTTTAACGGGGCTCTGATCCTCCACCCGGAAGACAGTGCC CTGCTCAGGCAGTATGCTGCCACCGTCATCAACACCGCGGTGCACTTCAACCACCTCTTC TCTCTCAGCGGCTACCAGTGGATTCTCCCCACCATGCTGCAGGTGTACTCCGACTATGAA AGCAATCCCCAGCTGCGTCAAGCCATCGAATTTGCCTGTCACCAGTTCTATATTCTACAC CGGAAGCCCTTTGTGCTCCAGCTGTTTGCTAGTGTGGCCCCTCTCCTGGAATTTCCTGAT GCTGCCAATAATGGGCCCAGCAAAGGTGTGTCAGCTCAGTGCCTGTTTGACTTGCTGCAG TCCCTAGAGGGAGAGACCACCGACATATTAGACATCTTAGAGCTGGTCAAAGCTGAGAAG CCTCTCAAGTCATTAGATTTCTGCTATGGAAACGAAGATCTGACATTTTCTATCAGTGAA GCCATTAAGCTCTGTGTCACTGTGGTGGCGTATGCTCCCGAATCATTCAGAAGTCTTCAG ATGCTGATGGTCTTAGAAGCCTTAGTTCCATGTTACCTACAAAAGCTAAAGAGGCAGACA TCACAGGTGGAGACAGTACCTGCTGCCCGAGAGGAGATTGCGGCCACTGCTGCTCTTGCG ACGTCCCTACAGGCCCTTTTGTACAGTGTAGAGGTCCTCACCAGGCCCATGACAGCCCCA CAGATGAGCAGGTGTGACCAAGGTCATAAGGGAACCACCACAGCCAATCACACCATGTCG TCTGGGGTGAACACCAGGTACCAGGAACAAGGAGCCAAACTGCACTTTATCAGGGAAAAC CTTCATTTACTGGAGGAAGGGCAAGGCATTCCCAGAGAGGAACTGGATGAACGAATTGCT CGGGAAGAGTTCAGAAGACCCCGGGAGTCCTTACTGAATATTTGCACTGAGTTCTATAAG CACTGTGGGCCACGGCTGAAGATCTTGCAAAATCTGGCTGGGGAGCCTCGGGTCATTGCC TTGGAACTGCTGGATGTGAAGTCTCACATGAGGTTGGCAGAAATTGCACACTCCCTTCTG AAGCTGGCACCATATGACACTCAGACAATGGAGAGTCGTGGGCTTCGGCGCTACATCATG GAGATGCTACCCATTACTGACTGGACAGCTGAGGCAGTGAGGCCGGCCCTCATCCTCATT TTAAAAAGATTGGATAGAATGTTCAACAAAATTCATAAGATGCCTACTTTGAGGCGACAG GTTGAGTGGGAGCCTGCCAGCAATTTGATTGAAGGGGTTTGTTTGACACTTCAGAGGCAG CCAATCATATCCTTCCTGCCTCACCTTAGGTCACTGATCAATGTCTGTGTCAATCTGGTG ATGGGAGTGGTAGGACCTTCCAGTGTTGCTGATGGATTACCCCTTCTTCATCTCAGCCCT TATCTCTCACCACCTCTGCCCTTCAGCACAGCTGTTGTCCGGCTTGTAGCATTGCAGATA CAGGCTTTAAAAGAAGATTTTCCTTTAAGCCATGTGATCTCCCCATTCACCAATCAAGAG CGAAGGGAGGGGATGCTTTTAAATCTGCTCATCCCATTTGTGCTCACAGTAGGATCTGGA AGCAAAGATAGCCCATGGCTGGAGCAGCCTGAGGTGCAGCTGCTGCTGCAGACAGTCATC AATGTACTCCTCCCACCGCGGATCATCAGCACATCCAGGAGCAAGAACTTCATGTTAGAG AGCTCCCCAGCCCACTGCTCCACCCCTGGGGATGCGGGGAAAGACTTGCGCAGGGAAGGG CTGGCTGAGTCCACCAGCCAAGCAGCATACTTGGCGCTGAAGGTGATTCTCGTCTGCTTT GAGAGGCAGCTCGGAAGCCAGTGGTACTGGCTGAGCCTCCAGGTGAAGGAGATGGCTCTG CGGAAGGTGGGAGGCCTGGCCCTTTGGGATTTCCTCGACTTCATCGTGCGGACCCGAATA CCCATCTTTGTGCTTTTGCGCCCTTTCATCCAGTGCAAGCTGCTGGCCCAACCAGCAGAG AATCATGAAGAGCTTTCCGCCCGGCAACATATTGCCGACCAGCTGGAGCGGCGCTTCATA CCACGCCCTTTGTGTAAGAGCTCGCTCATTGCTGAGTTCAACAGTGAACTAAAAATTCTA AAAGAGGCAGTTCATAGTGGATCAGCCTACCAAGGCAAGACATCCATCAGTACCGTGGGC ACCTCCACCTCTGCTTACCGCCTGAGCTTGGCCACCATGTCCCGCTCTAACACGGGCACG GGCACTGTCTGGGAGCAGGACAGTGAGCCATCCCAGCAGGCTTCGCAGGACACCCTGAGT CGGACTGATGAGGAAGATGAGGAAAATGACTCTATAAGCATGCCCAGCGTGGTAAGTGAA CAAGAAGCTTACCTCCTGAGTGCCATTGGAAGGAGGCGATTCTCCAGCCATGTCTCCAGC ATGTCTGTACCTCAGGCTGAGGTGGGCATGCTACCCAGCCAGAGGGTGGCAAGTATACAG AGTGAACCTGGTCAACAGAACCTCCTTGTTCAGCAGCCGCTGGGGAGGAAGAGGGGCCTG AGGCAGCTAAGACGTCCTCTACTATCACGTCAGAAAACTCAGACTGAACCCAGAAATCGC CAAGGGGCTCGGCTGTCAACCACTCGCAGGAGCATTCAACCTAAAACGAAGCCGTCTGCG GATCAGAAACGATCTGTGACCTTCATTGAGGCTCAGCCAGAGCCAGCAGCTGCCCCAACA GATGCGCTTCCTGCAACAGGCCAACTACAGGGCTGTAGCCCAGCCCCTTCTAGGAAACCA GAAGCAATGGACGAACCAGTCCTCACATCTTCTCCCGCCATAGTTGTTGCGGATCTCCAC AGCGTGTCTCCCAAGCAGAGTGAGAACTTCCCCACTGAAGAAGGAGAAAAGGAGGAGGAC ACAGAAGCACAAGGTGCTACTGCACACAGTCCACTCTCTGCCCAACTCTCTGACCCTGAT GACTTCACAGGCCTCGAGACATCCAGCCTCCTACAGCATGGAGACACTGTCCTTCATATC AGTGAGGAAAATGGCATGGAGAACCCGCTACTATCTAGTCAGTTCACCTTTACTCCCACT GAGCTGGGGAAAACGGATGCAGTATTAGATGAGTCTCATGTT |
Restriction Sites | Please inquire |
ACCN | NM_182587 |
OTI Disclaimer | Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
OTI Annotation | This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA. |
Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
Reconstitution | 1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C. |
Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
Reference Data | |
RefSeq | NM_182587.3, NP_872393.3 |
RefSeq Size | 13490 bp |
RefSeq ORF | 9705 bp |
Locus ID | 285175 |
UniProt ID | Q8N2C7 |
Gene Summary | The protein encoded by this gene is a component of a voltage-independent 'leak' ion-channel complex, in which it performs essential functions, such as serving as a bridge between two other components (sodium leak channel non-selective and UNC79) and as a scaffold for Src kinases. Leak channels play an importnat role in establishment and maintenance of resting membrane potentials in neurons. Mutations in this gene are associated with congenital infantile encephalopathy, intellectual disability and growth issues. [provided by RefSeq, Aug 2016] Transcript Variant: This variant (2) uses an alternate in-frame splice site in the central coding region, and lacks an alternate in-frame exon in the 3' coding region, compared to variant 1. The resulting isoform (2) is shorter than isoform 1. There are no full-length transcripts representing this variant in human; it is inferred from partial transcript data and from alignments of homologous transcripts. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. |
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Other Versions
SKU | Description | Size | Price |
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RC229478 | UNC80 (Myc-DDK-tagged)-Human unc-80 homolog (C. elegans) (UNC80), transcript variant 2 |
CNY 31,440.00 |
|
RG229478 | UNC80 (tGFP-tagged) - Human unc-80 homolog (C. elegans) (UNC80), transcript variant 2 |
CNY 20,900.00 |
|
SC307450 | UNC80 (untagged)-Human unc-80 homolog (C. elegans) (UNC80), transcript variant 2 |
CNY 3,840.00 |