Plectin (PLEC) (NM_201383) Human Untagged Clone
CAT#: SC308018
PLEC (untagged)-Human plectin (PLEC), transcript variant 10
CNY 87,590.00
货期*
详询
规格
Product images
经常一起买 (4)
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | EBS1; EBSMD; EBSND; EBSO; EBSOG; EBSPA; HD1; LGMD2Q; LGMDR17; PCN; PLEC1; PLEC1b; PLTN |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_201383, the custom clone sequence may differ by one or more nucleotides
ATGTCGGGGGCGGGGGGCGCCTTTGCCTCGCCGAGGGAGGTCTTGCTGGAGCGGCCGTGC TGGCTGGACGGGGGCTGCGAGCCGGCCCGCAGGGGCTACCTCTACCAGCAGCTGTGCTGC GTAGATGAGCGGGATCGTGTGCAGAAGAAAACCTTCACCAAGTGGGTCAACAAGCACCTC ATCAAGGCCCAGAGGCACATCAGTGACCTGTATGAAGACCTCCGCGATGGCCACAACCTC ATCTCCCTGCTGGAGGTCCTCTCGGGGGACAGCCTGCCCCGGGAGAAGGGGAGGATGCGT TTCCACAAGCTGCAGAATGTCCAGATTGCCCTGGACTACCTCCGGCACCGCCAGGTGAAG CTGGTGAACATCAGGAATGATGACATCGCTGACGGCAACCCCAAGCTGACCCTTGGCCTC ATCTGGACAATCATTCTGCACTTCCAGATCTCAGATATCCAGGTGAGTGGGCAGTCGGAG GACATGACGGCCAAGGAGAAGCTGCTGCTGTGGTCGCAGCGAATGGTGGAGGGGTACCAG GGCCTGCGATGCGACAACTTCACCTCCAGCTGGAGAGACGGCCGCCTCTTCAATGCCATC ATCCACCGGCACAAGCCCCTGCTCATCGACATGAACAAGGTGTACCGGCAGACCAACCTG GAGAACCTGGACCAGGCCTTCTCTGTGGCGGAGCGGGACCTGGGAGTGACGCGGCTCCTG GACCCTGAGGACGTGGATGTCCCTCAGCCCGACGAGAAGTCCATCATCACCTACGTCTCG TCGCTGTATGACGCCATGCCCCGCGTGCCGGACGTGCAGGATGGGGTGAGGGCCAACGAG CTGCAGCTGCGCTGGCAGGAGTACCGGGAGCTGGTGCTGCTGCTGCTTCAGTGGATGCGA CACCACACGGCCGCCTTTGAGGAACGCAGGTTCCCCTCCAGCTTCGAGGAGATTGAGATC CTGTGGTCTCAGTTCCTGAAGTTTAAGGAGATGGAGCTACCAGCCAAGGAGGCCGACAAG AACAGGTCCAAGGGCATCTACCAATCCCTGGAGGGAGCGGTGCAAGCAGGCCAGCTCAAG GTGCCCCCTGGCTACCACCCGCTGGATGTGGAGAAGGAGTGGGGCAAGCTGCACGTGGCC ATCCTGGAGCGGGAGAAGCAGCTCCGCAGCGAGTTTGAGAGGCTGGAGTGTCTTCAGCGC ATCGTGACCAAGCTGCAGATGGAGGCGGGGCTGTGTGAGGAGCAGCTGAACCAGGCCGAC GCCCTGCTGCAGTCGGATGTCCGGCTGCTGGCTGCAGGCAAAGTGCCACAGCGGGCGGGG GAGGTGGAACGGGACTTGGACAAGGCGGATAGCATGATCCGGCTGCTCTTCAACGACGTG CAGACCCTCAAGGATGGACGGCACCCGCAGGGCGAGCAGATGTACCGCAGGGTGTACCGT CTGCACGAGCGCCTGGTAGCCATCCGCACCGAGTACAACCTACGGCTGAAGGCAGGCGTG GCGGCCCCTGCAACCCAGGTGGCCCAGGTGACTCTGCAGAGTGTGCAGAGGCGCCCCGAG CTGGAGGACTCCACTCTGCGCTACCTGCAGGACCTGCTGGCCTGGGTGGAGGAGAACCAG CACCGTGTGGATGGCGCTGAGTGGGGTGTGGACCTGCCCAGCGTGGAGGCGCAGCTGGGC AGCCACCGAGGCCTGCACCAGTCCATCGAAGAATTCCGGGCCAAGATCGAGCGGGCACGG AGTGACGAGGGCCAGCTCTCCCCCGCCACCCGGGGTGCCTACCGTGACTGCCTGGGTCGG CTGGACCTGCAGTACGCCAAGCTGCTGAACTCCTCCAAGGCCCGCCTCAGGTCCCTGGAG AGCTTGCACAGCTTTGTGGCAGCCGCCACTAAGGAGCTAATGTGGCTGAATGAGAAGGAG GAGGAGGAGGTGGGCTTCGACTGGAGCGACCGCAACACCAACATGACCGCCAAGAAGGAG AGCTACTCGGCGCTGATGCGGGAGCTGGAGCTGAAGGAGAAGAAGATCAAGGAGCTCCAA AATGCTGGGGACCGGCTGCTGCGGGAGGACCACCCGGCCCGGCCCACGGTGGAGTCCTTC CAGGCGGCCCTGCAGACGCAGTGGAGCTGGATGCTACAGCTGTGCTGCTGTATCGAGGCA CACCTGAAGGAGAACGCTGCCTACTTTCAGTTCTTCTCAGATGTGCGGGAGGCCGAGGGG CAGTTGCAGAAGCTGCAGGAGGCACTGCGTAGGAAATACAGTTGTGATCGCTCCGCCACC GTCACCCGGCTGGAGGACCTGCTGCAGGATGCCCAGGACGAGAAGGAACAGCTGAACGAG TACAAGGGCCACCTCTCAGGCCTGGCCAAGCGGGCCAAGGCCGTCGTGCAGCTGAAGCCC CGCCACCCAGCCCACCCCATGCGGGGCCGCCTGCCCCTGCTGGCCGTGTGCGACTATAAG CAGGTGGAGGTGACTGTGCACAAGGGTGACGAGTGCCAGCTGGTGGGCCCTGCACAGCCG TCCCACTGGAAGGTGCTCAGCAGCTCCGGCAGCGAGGCCGCCGTGCCCTCCGTGTGCTTC CTGGTGCCCCCGCCCAACCAGGAGGCCCAGGAGGCCGTCACCAGGCTGGAGGCCCAGCAC CAGGCCCTGGTCACGCTGTGGCACCAGTTGCACGTGGACATGAAGAGCCTTCTGGCCTGG CAGAGCCTTCGCCGCGACGTGCAGCTCATCCGCTCCTGGTCCCTGGCCACGTTCCGCACC CTGAAGCCAGAGGAGCAGCGCCAAGCCCTGCACAGCCTGGAGCTGCACTACCAGGCCTTC CTGCGGGACAGCCAGGACGCGGGCGGCTTCGGACCCGAGGACCGGCTGATGGCTGAGCGC GAGTACGGCTCCTGCAGCCACCACTACCAGCAGCTGCTGCAGAGCCTGGAACAGGGTGCA CAGGAAGAGTCTCGCTGCCAGCGCTGCATCTCCGAGCTCAAAGACATCCGGCTGCAGCTG GAGGCCTGTGAGACGCGCACCGTGCACCGCCTGCGGCTGCCGCTGGACAAAGAGCCGGCA CGGGAGTGTGCCCAGCGCATCGCCGAGCAGCAGAAGGCACAGGCAGAGGTGGAGGGGCTG GGCAAGGGGGTCGCCCGGCTCTCTGCCGAGGCCGAGAAGGTCTTGGCCCTACCAGAGCCA TCGCCTGCGGCCCCCACGCTGCGCTCGGAGCTGGAGCTGACGCTGGGCAAGCTGGAGCAG GTCCGCAGCCTGTCTGCCATCTACCTGGAGAAGCTCAAGACCATCAGCCTGGTGATCCGC GGCACGCAGGGGGCCGAGGAGGTGCTCAGGGCCCACGAGGAGCAGCTCAAGGAGGCCCAG GCCGTGCCGGCCACCCTCCCGGAGCTCGAGGCCACCAAGGCCTCTCTGAAGAAGCTGCGG GCCCAGGCCGAGGCACAGCAGCCCACGTTCGACGCCCTGCGGGATGAGCTGCGGGGGGCA CAGGAGGTGGGGGAGCGACTGCAGCAGCGGCACGGGGAGCGGGACGTGGAGGTGGAGCGC TGGCGGGAGCGGGTCGCCCAGTTGCTTGAGCGCTGGCAGGCTGTGCTGGCCCAGACCGAC GTGCGGCAGCGCGAGCTCGAGCAACTGGGCCGCCAGCTGCGTTACTACCGCGAGAGTGCA GACCCCTTGGGCGCCTGGCTGCAGGACGCCAGGCGGCGGCAGGAGCAGATCCAGGCCATG CCGCTGGCCGACAGCCAGGCTGTGCGGGAGCAGCTGCGGCAGGAGCAGGCCCTGCTGGAG GAGATCGAGCGCCACGGCGAGAAGGTCGAGGAGTGCCAGAGGTTTGCGAAACAGTACATC AACGCCATCAAGGACTATGAACTCCAGCTGGTGACGTACAAGGCGCAGCTTGAGCCGGTG GCCTCCCCGGCCAAGAAGCCCAAGGTCCAGTCGGGATCAGAGAGTGTCATCCAGGAGTAC GTGGACCTGCGTACGCACTACAGCGAGCTGACCACACTGACGAGCCAGTACATCAAGTTC ATCAGCGAGACTCTGCGGCGCATGGAGGAGGAGGAGAGGCTGGCTGAGCAGCAGCGGGCA GAGGAGCGCGAGCGGCTGGCCGAGGTGGAGGCCGCGCTGGAGAAGCAGCGGCAGCTGGCC GAGGCGCACGCCCAGGCAAAGGCACAGGCGGAGCGGGAGGCGAAGGAGCTGCAGCAGCGC ATGCAGGAGGAGGTGGTGCGGCGGGAGGAGGCGGCGGTGGACGCGCAGCAGCAGAAGCGC AGCATTCAGGAGGAGCTGCAGCAGCTGCGGCAGAGCTCGGAGGCGGAGATCCAGGCCAAG GCCCGGCAGGCAGAGGCGGCTGAGCGCAGCCGGCTGCGCATCGAGGAGGAGATCCGCGTG GTGCGCCTGCAGTTGGAGGCCACCGAGCGCCAGCGTGGCGGGGCTGAGGGGGAGCTGCAG GCACTGCGTGCACGGGCGGAGGAGGCTGAGGCACAAAAGCGACAGGCGCAGGAGGAGGCC GAGCGCTTGCGGAGGCAGGTGCAGGACGAGAGCCAGCGTAAGCGGCAGGCGGAGGTGGAG CTGGCCTCGCGCGTGAAGGCCGAGGCCGAGGCGGCGCGCGAGAAGCAGCGGGCCCTGCAG GCCCTGGAGGAGCTGCGGCTGCAGGCGGAGGAGGCGGAGCGGCGCCTGCGGCAGGCCGAG GTGGAGCGAGCGCGGCAGGTACAGGTGGCCCTGGAGACGGCGCAGCGCAGTGCAGAGGCG GAGCTGCAGAGCAAACGCGCCTCCTTCGCCGAGAAGACGGCACAGCTGGAGCGCTCCCTG CAGGAGGAACACGTGGCTGTGGCACAGCTGCGGGAGGAGGCTGAGCGGCGGGCACAGCAG CAGGCCGAGGCCGAGCGGGCGCGCGAGGAGGCAGAGCGGGAGCTGGAGCGCTGGCAGCTC AAGGCCAACGAGGCGCTACGGCTGCGGCTGCAGGCGGAGGAGGTGGCGCAGCAGAAGAGC CTGGCGCAGGCCGAGGCTGAGAAGCAGAAGGAGGAGGCGGAGCGCGAGGCGCGGCGGCGC GGCAAGGCGGAGGAGCAGGCCGTCCGGCAGCGGGAGCTGGCTGAACAAGAGCTGGAGAAG CAGCGGCAGCTGGCGGAAGGCACCGCGCAGCAGCGCCTGGCCGCGGAGCAGGAGTTGATC CGGCTGCGGGCCGAGACGGAGCAGGGGGAGCAGCAGCGGCAGCTGCTGGAGGAGGAGCTG GCCCGGCTGCAGCGTGAGGCGGCTGCAGCCACGCAGAAACGGCAGGAGCTGGAAGCCGAG CTGGCCAAGGTGCGGGCCGAGATGGAGGTGCTGCTGGCCAGCAAGGCGAGGGCTGAGGAG GAGTCGCGCTCCACCAGCGAGAAGTCCAAGCAGAGGCTGGAGGCCGAGGCCGGCCGGTTC CGCGAGCTGGCCGAGGAGGCCGCCCGCCTGCGTGCCCTGGCGGAAGAGGCCAAGCGGCAG CGGCAGCTGGCCGAGGAAGACGCGGCGCGGCAGCGGGCCGAGGCGGAGCGGGTGCTTGCG GAGAAGCTGGCCGCCATCGGCGAGGCCACGCGGCTCAAGACGGAGGCGGAGATCGCGCTC AAGGAGAAGGAGGCGGAGAACGAGCGCCTGCGGCGGCTGGCGGAGGACGAGGCCTTCCAG CGGCGGCGGCTGGAGGAGCAGGCCGCGCAACACAAGGCTGACATCGAGGAGCGCCTGGCC CAGCTGCGCAAGGCATCGGACAGCGAGCTGGAGCGGCAGAAGGGGCTGGTGGAGGACACG CTGAGGCAGCGGCGGCAGGTGGAGGAGGAGATCCTGGCGCTGAAGGCGAGCTTCGAGAAG GCGGCCGCTGGCAAGGCGGAGCTGGAGCTGGAGCTGGGACGCATCCGCAGCAACGCGGAG GACACGCTGCGCAGCAAGGAGCAGGCCGAGCTGGAGGCTGCGAGGCAGCGGCAGCTGGCG GCGGAGGAGGAGCGGCGGCGCCGTGAGGCTGAGGAGCGCGTGCAGAAGAGCCTGGCGGCC GAGGAGGAGGCCGCACGGCAGCGGAAGGCGGCGCTGGAGGAAGTCGAGCGGCTGAAAGCC AAGGTGGAGGAGGCGCGGCGCCTGCGGGAGCGAGCGGAGCAGGAGTCGGCGCGGCAGCTG CAGCTGGCCCAGGAGGCCGCCCAGAAGCGGCTGCAGGCGGAAGAGAAGGCACACGCCTTC GCGGTGCAGCAGAAGGAGCAGGAGCTACAGCAGACGCTGCAGCAGGAGCAGAGCGTGCTG GACCAGCTGCGCGGCGAGGCGGAGGCGGCCCGGCGGGCGGCTGAGGAGGCGGAGGAGGCC CGGGTGCAGGCGGAGCGTGAGGCGGCGCAGTCCCGGCGGCAGGTGGAAGAGGCCGAGCGG CTGAAGCAGTCGGCAGAGGAGCAGGCACAGGCCCGGGCTCAGGCACAGGCGGCTGCAGAG AAGCTGCGCAAGGAGGCCGAGCAAGAGGCGGCGCGGCGGGCACAGGCGGAGCAGGCGGCC CTGCGGCAGAAGCAGGCAGCTGACGCGGAGATGGAGAAGCATAAGAAATTCGCCGAGCAG ACGCTGCGGCAGAAGGCGCAGGTGGAGCAGGAGCTGACAACACTGCGGCTGCAGCTGGAG GAGACCGACCACCAGAAGAACCTGCTGGACGAGGAGCTGCAGCGGCTGAAGGCGGAGGCC ACGGAGGCCGCACGCCAGCGCAGCCAGGTGGAGGAGGAGCTCTTCTCGGTGCGCGTGCAG ATGGAGGAGCTGAGCAAGCTCAAGGCACGCATCGAGGCTGAGAACCGCGCACTCATCTTG CGTGACAAGGACAATACGCAGCGCTTCCTGCAGGAGGAGGCTGAGAAGATGAAGCAGGTG GCGGAGGAGGCCGCGCGGCTGAGTGTGGCGGCCCAAGAGGCTGCGCGACTGCGGCAGCTG GCAGAGGAGGACCTGGCACAGCAGCGGGCCTTGGCAGAGAAGATGCTCAAGGAGAAGATG CAGGCGGTGCAGGAGGCCACGCGACTCAAGGCTGAGGCGGAACTGCTGCAGCAGCAGAAG GAGCTTGCGCAGGAGCAGGCGCGGCGGCTGCAGGAGGACAAGGAGCAGATGGCGCAGCAG CTGGCGGAGGAGACGCAGGGCTTCCAGCGGACGCTGGAGGCCGAGCGGCAGCGGCAGCTG GAGATGAGCGCTGAGGCTGAGCGCCTCAAGCTGCGTGTGGCCGAGATGAGCCGAGCCCAG GCCCGCGCTGAGGAGGACGCCCAGCGCTTCCGGAAGCAGGCGGAGGAGATCGGTGAGAAG CTGCACCGCACGGAGCTCGCCACCCAGGAGAAGGTGACCCTGGTGCAGACACTGGAGATC CAGCGACAGCAGAGTGACCATGATGCCGAGCGCCTGCGGGAGGCCATCGCTGAGCTGGAG CGTGAGAAGGAGAAGCTCCAACAGGAGGCCAAACTGCTGCAGCTCAAGTCTGAGGAGATG CAGACGGTGCAGCAGGAGCAGCTGCTGCAGGAGACGCAGGCCCTGCAGCAAAGCTTCCTC TCTGAAAAGGACAGCCTGCTACAGCGGGAGCGCTTCATCGAGCAGGAGAAGGCCAAGCTG GAGCAGCTCTTCCAGGACGAGGTGGCCAAGGCACAGCAGCTGCGTGAGGAGCAGCAGCGG CAGCAGCAGCAGATGGAGCAGGAACGGCAGCGGCTGGTGGCCAGCATGGAGGAGGCGCGG CGGCGGCAGCATGAGGCCGAGGAGGGCGTGCGGCGCAAGCAGGAGGAGCTGCAGCAGCTG GAGCAGCAGCGGCGGCAGCAGGAGGAGCTGCTGGCTGAGGAGAACCAGAGGCTGCGTGAG CAGCTGCAGCTCCTGGAGGAGCAGCACCGGGCCGCGCTGGCGCACTCAGAGGAGGTCACT GCCTCGCAGGTGGCTGCCACAAAGACCCTGCCCAATGGCCGGGATGCACTTGATGGCCCC GCGGCAGAGGCAGAGCCGGAGCACAGCTTCGATGGCCTGCGGCGGAAGGTGTCAGCTCAG AGGCTGCAGGAGGCCGGCATCCTGAGTGCGGAGGAGCTGCAGCGGTTGGCGCAGGGCCAC ACCACGGTGGACGAGCTCGCACGGCGGGAAGACGTGCGCCACTACCTGCAGGGCCGCAGC AGTATCGCAGGGCTGTTGCTGAAGGCCACCAATGAGAAGCTGAGTGTTTACGCCGCCCTG CAGAGGCAGCTGCTGAGTCCCGGCACGGCCCTCATCCTGCTGGAGGCGCAGGCGGCCTCA GGCTTCCTGCTGGACCCTGTGCGGAACCGGCGGCTGACCGTCAACGAGGCTGTGAAGGAG GGTGTGGTGGGCCCCGAGCTGCACCACAAGCTGCTGTCGGCCGAGCGCGCCGTCACTGGC TACAAGGACCCCTACACTGGCCAGCAGATCTCTCTCTTCCAAGCCATGCAGAAGGGCCTC ATCGTCCGGGAGCACGGCATCCGCCTGCTGGAGGCCCAGATCGCCACGGGCGGCGTTATC GACCCCGTGCACAGCCACCGCGTGCCCGTGGACGTGGCCTACCGGCGCGGCTACTTCGAC GAGGAGATGAACCGCGTCCTGGCGGACCCCAGCGACGACACCAAGGGCTTCTTTGACCCC AACACGCACGAGAACCTCACGTACCTGCAGCTACTGGAGCGCTGCGTGGAGGACCCCGAG ACGGGCCTGTGCCTTCTGCCACTCACGGATAAGGCTGCCAAGGGCGGGGAGCTGGTCTAC ACTGACTCCGAGGCCCGGGACGTCTTTGAGAAGGCCACCGTGTCTGCGCCGTTCGGCAAG TTCCAGGGCAAGACGGTGACCATTTGGGAGATCATCAACTCGGAATACTTCACGGCAGAG CAGCGGCGGGACCTGCTGCGGCAGTTCCGCACGGGCCGGATCACAGTGGAGAAGATCATC AAGATCATCATCACGGTGGTGGAGGAGCAGGAGCAGAAGGGCCGGCTTTGCTTTGAGGGC CTGCGCAGCCTGGTGCCAGCCGCCGAGCTGCTGGAGAGCAGGGTCATCGACCGCGAGCTC TACCAGCAGCTGCAGCGAGGTGAGCGCTCTGTGCGAGACGTAGCCGAGGTGGACACTGTG CGGCGGGCTCTCCGGGGTGCCAACGTCATCGCGGGTGTATGGCTGGAGGAGGCGGGGCAG AAGCTGAGTATCTACAATGCCCTGAAGAAAGACCTGCTGCCATCCGACATGGCCGTGGCC CTGTTGGAAGCCCAGGCCGGCACCGGGCACATCATCGACCCCGCCACCAGCGCCCGGCTG ACCGTGGACGAGGCAGTGCGTGCTGGCCTGGTGGGCCCCGAGTTTCATGAGAAGCTGCTA TCAGCCGAGAAGGCTGTGACAGGGTACAGGGACCCCTACACAGGGCAGAGCGTCTCCCTG TTCCAGGCCCTGAAGAAGGGCCTCATTCCCCGGGAGCAGGGCCTGCGCCTGTTGGACGCC CAGCTGTCCACGGGCGGCATCGTGGACCCCAGCAAGAGCCACCGCGTGCCCCTGGATGTC GCCTGCGCCCGAGGCTGCCTGGATGAGGAGACCAGCAGGGCCCTGTCGGCACCAAGGGCC GACGCCAAGGCCTACAGTGACCCCAGCACAGGGGAGCCGGCCACCTACGGCGAGCTCCAG CAGCGGTGCCGGCCCGACCAGCTGACCGGGCTGAGCCTGCTGCCGCTCTCAGAAAAGGCT GCTCGGGCCCGGCAGGAGGAGCTCTACTCAGAGCTGCAGGCCCGTGAGACCTTTGAAAAG ACCCCGGTTGAGGTCCCCGTGGGTGGCTTCAAGGGCAGGACGGTGACGGTGTGGGAGCTC ATCAGCTCTGAGTACTTCACTGCGGAGCAGCGGCAGGAGCTGTTGCGTCAGTTCCGCACG GGCAAGGTCACCGTGGAGAAGGTCATCAAGATTCTCATTACCATCGTGGAGGAGGTGGAG ACCCTGCGGCAGGAGAGGCTGTCCTTCAGCGGCCTCCGTGCCCCTGTGCCAGCCAGCGAG CTCCTGGCTTCCGGGGTCCTCAGCAGAGCCCAGTTTGAGCAGCTCAAGGACGGCAAGACG ACGGTCAAGGACCTTTCGGAGCTGGGCTCCGTGCGGACGCTGCTGCAGGGCAGTGGCTGC CTCGCCGGCATCTACCTGGAGGACACCAAGGAGAAGGTGTCCATCTACGAGGCCATGCGC CGGGGCCTGCTGAGAGCCACAACGGCTGCGCTCCTGCTGGAGGCGCAGGCGGCCACTGGC TTCCTGGTGGACCCCGTGCGGAACCAGCGCCTGTATGTCCACGAGGCCGTGAAGGCGGGC GTGGTGGGCCCCGAGCTTCACGAGCAGCTGCTGTCTGCCGAGAAGGCCGTCACCGGCTAC AGAGACCCCTACTCGGGCAGCACCATCTCCCTCTTCCAGGCCATGCAGAAGGGCCTGGTT CTCCGGCAGCACGGCATCCGCCTGCTGGAGGCCCAGATCGCCACGGGCGGCATCATCGAC CCCGTGCACAGCCACCGCGTGCCTGTGGACGTGGCCTACCAGCGCGGCTACTTCAGTGAG GAGATGAACCGCGTCCTGGCGGACCCCAGCGACGACACCAAGGGCTTCTTTGACCCCAAC ACGCATGAGAACCTCACGTACAGGCAGCTGCTGGAGCGGTGCGTGGAGGACCCCGAGACG GGCTTGCGCCTTCTGCCACTGAAAGGGGCGGAGAAGGCTGAGGTGGTGGAGACCACGCAG GTGTACACTGAGGAGGAGACAAGAAGGGCATTTGAAGAGACACAGATCGACATTCCCGGC GGCGGCAGCCACGGCGGCTCCACCATGTCCCTGTGGGAGGTGATGCAGTCGGACCTGATC CCCGAGGAGCAGCGGGCCCAGCTGATGGCTGACTTCCAGGCCGGCCGGGTGACCAAGGAA CGCATGATCATCATCATCATCGAGATCATTGAGAAGACAGAGATCATCCGCCAGCAGGGT CTGGCCTCCTACGACTACGTGCGCCGCCGCCTCACGGCTGAGGACCTGTTCGAGGCTCGG ATCATCTCTCTCGAGACCTACAACCTGCTCCGGGAGGGCACCAGGAGCCTCCGTGAGGCT CTCGAGGCGGAGTCCGCCTGGTGCTACCTCTATGGCACGGGCTCCGTGGCTGGTGTCTAC CTGCCCGGTTCCAGGCAGACACTGAGCATCTACCAGGCTCTCAAGAAAGGGCTGCTGAGT GCCGAGGTGGCCCGCCTGCTGCTGGAGGCACAGGCAGCCACAGGCTTCCTGCTGGACCCG GTGAAGGGGGAGCGGCTGACTGTGGATGAGGCTGTGCGGAAGGGCCTCGTGGGGCCCGAG CTGCACGACCGCCTGCTCTCGGCTGAGCGGGCGGTCACCGGCTACCGTGACCCCTACACC GAGCAGACCATCTCGCTCTTCCAGGCCATGAAGAAGGAGCTGATCCCTACTGAGGAGGCC CTGCGGCTGCTGGATGCCCAGCTGGCCACCGGCGGCATCGTGGACCCCCGCCTGGGCTTC CACCTTCCCCTGGAGGTGGCTTACCAGCGTGGCTACCTCAACAAGGACACGCACGACCAG CTGTCAGAGCCCAGCGAGGTGCGCAGCTACGTGGACCCGTCCACCGACGAGCGCCTCAGC TACACGCAGCTGCTCAGGCGGTGCCGTCGTGACGACGGCACCGGCCAGCTGCTCCTGCCA CTGTCGGACGCCCGCAAGCTGACCTTCCGTGGCCTGCGGAAGCAGATCACCATGGAGGAG CTGGTGCGCTCGCAGGTCATGGACGAGGCCACGGCGCTGCAGCTGCGGGAGGGCCTGACC TCCATCGAGGAGGTCACCAAGAACTTGCAGAAGTTCCTGGAAGGCACCAGCTGCATCGCT GGTGTCTTCGTGGACGCCACCAAGGAACGGCTCTCGGTGTACCAGGCCATGAAGAAGGGC ATCATCCGCCCCGGCACAGCCTTTGAGCTCCTGGAGGCGCAGGCGGCCACCGGTTACGTC ATCGACCCCATCAAGGGACTGAAGCTGACGGTGGAGGAGGCTGTGCGTATGGGCATTGTG GGCCCCGAGTTCAAGGACAAGCTGCTGTCGGCCGAGCGCGCCGTCACTGGGTACAAGGAC CCCTACTCTGGGAAGCTCATCTCCCTCTTCCAGGCCATGAAGAAGGGCCTGATCCTGAAG GACCATGGCATCCGCCTGCTGGAGGCCCAGATCGCCACGGGCGGCATCATCGACCCTGAG GAGAGCCACCGGCTGCCCGTGGAGGTGGCCTACAAGCGCGGCCTCTTCGATGAGGAGATG AACGAGATCCTGACCGACCCCTCGGACGACACCAAGGGCTTCTTTGACCCTAACACGGAG GAGAACCTCACCTACCTGCAGCTGATGGAGCGTTGTATCACTGACCCCCAGACGGGCCTG TGTCTCTTGCCGCTGAAGGAGAAGAAGCGGGAGCGGAAGACGTCCTCCAAGTCCTCCGTG CGCAAGCGCCGAGTGGTCATCGTGGACCCCGAGACGGGCAAGGAGATGTCAGTGTACGAG GCCTACCGCAAGGGCCTGATTGACCACCAGACGTACCTGGAGCTGTCCGAGCAGGAGTGC GAGTGGGAGGAGATCACCATCTCCTCCTCGGACGGCGTGGTCAAGTCCATGATCATCGAC CGCCGCTCCGGGCGCCAGTACGACATCGATGATGCCATCGCCAAGAACCTCATCGACCGC TCGGCACTGGACCAGTACCGCGCCGGCACGCTCTCCATCACCGAGTTCGCCGACATGCTC TCGGGCAACGCCGGTGGTTTCCGCTCCCGTTCCTCCTCGGTGGGATCCTCCTCCTCCTAC CCCATCAGCCCCGCCGTCTCCAGGACCCAGCTGGCCTCCTGGTCAGACCCCACTGAGGAG ACGGGCCCCGTGGCTGGCATCCTGGACACGGAGACGCTGGAGAAGGTGTCCATCACCGAG GCCATGCACCGGAACCTGGTGGATAACATCACGGGGCAGCGGCTGCTGGAGGCGCAGGCC TGCACCGGGGGCATCATCGACCCCAGCACCGGTGAGCGCTTCCCTGTCACCGACGCCGTC AACAAGGGCCTGGTGGACAAGATCATGGTGGACCGCATCAACCTGGCCCAGAAGGCCTTC TGCGGCTTCGAGGACCCACGCACCAAGACCAAGATGTCGGCCGCCCAGGCCCTGAAGAAG GGCTGGCTCTACTACGAGGCCGGCCAGCGCTTCCTGGAGGTGCAGTACCTGACCGGCGGC TTGATCGAGCCCGACACGCCGGGCCGCGTGCCCCTGGACGAGGCCCTGCAGCGCGGCACG GTGGACGCCCGCACCGCACAGAAGCTGCGTGACGTGGGCGCCTACTCCAAGTACCTCACC TGCCCTAAGACCAAGCTCAAGATCTCCTATAAGGACGCGCTGGACCGCAGCATGGTGGAG GAGGGCACGGGGCTGCGGCTGCTGGAGGCTGCCGCGCAGTCCACCAAGGGCTACTACAGC CCCTACAGCGTCAGCGGCTCCGGCTCTACCGCTGGCTCCCGCACCGGCTCGCGCACCGGC TCCCGGGCCGGCTCCCGCCGCGGCAGCTTTGACGCCACCGGCTCCGGCTTCTCCATGACC TTCTCTTCATCCTCCTACTCCTCCTCGGGCTACGGCCGCCGCTACGCCTCGGGGTCCTCG GCCTCCCTGGGGGGCCCTGAGTCTGCCGTGGCCTGA |
Restriction Sites | Please inquire |
ACCN | NM_201383 |
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. Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP). |
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_201383.1, NP_958785.1 |
RefSeq Size | 14689 bp |
RefSeq ORF | 13656 bp |
Locus ID | 5339 |
UniProt ID | Q15149 |
Protein Families | Druggable Genome |
Gene Summary | Plectin is a prominent member of an important family of structurally and in part functionally related proteins, termed plakins or cytolinkers, that are capable of interlinking different elements of the cytoskeleton. Plakins, with their multi-domain structure and enormous size, not only play crucial roles in maintaining cell and tissue integrity and orchestrating dynamic changes in cytoarchitecture and cell shape, but also serve as scaffolding platforms for the assembly, positioning, and regulation of signaling complexes (reviewed in PMID: 9701547, 11854008, and 17499243). Plectin is expressed as several protein isoforms in a wide range of cell types and tissues from a single gene located on chromosome 8 in humans (PMID: 8633055, 8698233). Until 2010, this locus was named plectin 1 (symbol PLEC1 in human; Plec1 in mouse and rat) and the gene product had been referred to as "hemidesmosomal protein 1" or "plectin 1, intermediate filament binding 500kDa". These names were superseded by plectin. The plectin gene locus in mouse on chromosome 15 has been analyzed in detail (PMID: 10556294, 14559777), revealing a genomic exon-intron organization with well over 40 exons spanning over 62 kb and an unusual 5' transcript complexity of plectin isoforms. Eleven exons (1-1j) have been identified that alternatively splice directly into a common exon 2 which is the first exon to encode plectin's highly conserved actin binding domain (ABD). Three additional exons (-1, 0a, and 0) splice into an alternative first coding exon (1c), and two additional exons (2alpha and 3alpha) are optionally spliced within the exons encoding the acting binding domain (exons 2-8). Analysis of the human locus has identified eight of the eleven alternative 5' exons found in mouse and rat (PMID: 14672974); exons 1i, 1j and 1h have not been confirmed in human. Furthermore, isoforms lacking the central rod domain encoded by exon 31 have been detected in mouse (PMID:10556294), rat (PMID: 9177781), and human (PMID: 11441066, 10780662, 20052759). The short alternative amino-terminal sequences encoded by the different first exons direct the targeting of the various isoforms to distinct subcellular locations (PMID: 14559777). As the expression of specific plectin isoforms was found to be dependent on cell type (tissue) and stage of development (PMID: 10556294, 12542521, 17389230) it appears that each cell type (tissue) contains a unique set (proportion and composition) of plectin isoforms, as if custom-made for specific requirements of the particular cells. Concordantly, individual isoforms were found to carry out distinct and specific functions (PMID: 14559777, 12542521, 18541706). In 1996, a number of groups reported that patients suffering from epidermolysis bullosa simplex with muscular dystrophy (EBS-MD) lacked plectin expression in skin and muscle tissues due to defects in the plectin gene (PMID: 8698233, 8941634, 8636409, 8894687, 8696340). Two other subtypes of plectin-related EBS have been described: EBS-pyloric atresia (PA) and EBS-Ogna. For reviews of plectin-related diseases see PMID: 15810881, 19945614. Mutations in the plectin gene related to human diseases should be named based on the position in NM_000445 (variant 1, isoform 1c), unless the mutation is located within one of the other alternative first exons, in which case the position in the respective Reference Sequence should be used. [provided by RefSeq, Aug 2011] Transcript Variant: This variant (10) differs in the 5' UTR and the 5' coding region compared to variant 1. The resulting protein (isoform 1g) contains a distinct N-terminus compared to isoform 1c. |
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