atggctgccgatggttatcttccagattggctcgaggacaacctctctgagggcattcgcgagtggtgggacctgaaacctggagccccgaaacccaaagccaaccagcaaaagcaggacaa cggccggggtctggtgcttcctggctacaagtacctcggacccttcaacggactcgacaagggggagcccgtcaacgcggcggacgcagcggccctcgagcacgacaaggcctacgaccag cagctcaaagcgggtgacaatccgtacctgcggtataaccacgccgacgccgagtttcaggagcgtctgcaagaagatacgtcatttgggggcaacctcgggcgagcagtcttccaggccaa gaagcgggttctcgaacctctcggtctggttgaggaaggcgctaagacggctcctgcaaagaagagaccggtagagccgtcacctcagcgttcccccgactcctccacgggcatcggcaaga aaggccagcagcccgccagaaagagactcaatttcggtcagactggcgactcagagtcagtccccgaccctcaacctctcggagaacctccagcagcgccctctagtgtgggatctggtacag tggctgcaggcggtggcgcaccaatggcagacaataacgaaggtgccgacggagtgggtaatgcctcaggaaattggcattgcgattccacatggctgggcgacagagtcattaccaccag cacccgaacctgggccctgcccacctacaacaaccacctctacaagcaaatctccagtgaaactgcaggtagtaccaacgacaacacctacttcggctacagcaccccctgggggtattttgacttt aacagattccactgccacttctcaccacgtgactggcagcgactcatcaacaacaactggggattccggcccaagaagctgcggttcaagctcttcaacatccaggtcaaggaggtcacgacga atgacggcgttacgaccatcgctaataaccttaccagcacgattcaggtattctcggactcggaataccagctgccgtacgtcctcggctctgcgcaccagggctgcctgcctccgttcccggcgga cgtcttcatgattcctcagtacggctacctgactctcaacaatggcagtcagtctgtgggacgttcctccttctactgcctggagtacttcccctctcagatgctgagaacgggcaacaactttgagt tcagctacagcttcgaggacgtgcctttccacagcagctacgcacacagccagagcctggaccggctgatgaatcccctcatcgaccagtacttgtactacctggccagaacacagagtaacccag gaggcacagctggcaatcgggaactgcagttttaccagggcgggccttcaactatggccgaacaagccaagaattggttacctggaccttgcttccggcaacaaagagtctccaaaacgctgga tcaaaacaacaacagcaactttgcttggactggtgccaccaaatatcacctgaacggcagaaactcgttggttaatcccggcgtcgccatggcaactcacaaggacgacgaggaccgctttttccc atccagcggagtcctgatttttggaaaaactggagcaactaacaaaactacattggaaaatgtgttaatgacaaatgaagaagaaattcgtcctactaatcctgtagccacggaagaatacggg atagtcagcagcaacttacaagcggctaatactgcagcccagacacaagttgtcaacaaccagggagccttacctggcatggtctggcagaaccgggacgtgtacctgcagggtcccatctggg ccaagattcctcacacggatggcaactttcacccgtctcctttgatgggcggctttggacttaaacatccgcctcctcagatcctgatcaagaacactcccgttcccgctaatcctccggaggtgttta ctcctgccaagtttgcttcgttcatcacacagtacagcaccggacaagtcagcgtggaaatcgagtgggagctgcagaaggaaaacagcaagcgctggaacccggagattcagtacacctcca actttgaaaagcagactggtgtggactttgccgttgacagccagggtgtttactctgagcctcgccctattggcactcgttacctcacccgtaatctgtaa
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AAV5-GFAP-TetR-U6TO-shRNA Ready to Package
AAV5-GFAP-TetR-U6TO-shRNA for Tetracycline-dependent Glial/Astrocyte Specific Expression of shRNA, Ready to Package
AAV8 VP1
atggctgccgatggttatcttccagattggctcgaggacaacctctctgagggcattcgcgagtggtgggcgctgaaacctggagccccgaagcccaaagccaaccagcaaaagcaggacgacggccg gggtctggtgcttcctggctacaagtacctcggacccttcaacggactcgacaagggggagcccgtcaacgcggcggacgcagcggccctcgagcacgacaaggcctacgaccagcagctgcaggcg ggtgacaatccgtacctgcggtataaccacgccgacgccgagtttcaggagcgtctgcaagaagatacgtcttttgggggcaacctcgggcgagcagtcttccaggccaagaagcgggttctcgaac ctctcggtctggttgaggaaggcgctaagacggctcctggaaagaagagaccggtagagccatcaccccagcgttctccagactcctctacgggcatcggcaagaaaggccaacagcccgccagaa aaagactcaattttggtcagactggcgactcagagtcagttccagaccctcaacctctcggagaacctccagcagcgccctctggtgtgggacctaatacaatggctgcaggcggtggcgcaccaatg gcagacaataacgaaggcgccgacggagtgggtagttcctcgggaaattggcattgcgattccacatggctgggcgacagagtcatcaccaccagcacccgaacctgggccctgcccacctacaac aaccacctctacaagcaaatctccaacgggacatcgggaggagccaccaacgacaacacctacttcggctacagcaccccctgggggtattttgactttaacagattccactgccacttttcaccacgtg actggcagcgactcatcaacaacaactggggattccggcccaagagactcagcttcaagctcttcaacatccaggtcaaggaggtcacgcagaatgaaggcaccaagaccatcgccaataacctca ccagcaccatccaggtgtttacggactcggagtaccagctgccgtacgttctcggctctgcccaccagggctgcctgcctccgttcccggcggacgtgttcatgattccccagtacggctacctaacactc aacaacggtagtcaggccgtgggacgctcctccttctactgcctggaatactttccttcgcagatgctgagaaccggcaacaacttccagtttacttacaccttcgaggacgtgcctttccacagcagct acgcccacagccagagcttggaccggctgatgaatcctctgattgaccagtacctgtactacttgtctcggactcaaacaacaggaggcacggcaaatacgcagactctgggcttcagccaaggtgg gcctaatacaatggccaatcaggcaaagaactggctgccaggaccctgttaccgccaacaacgcgtctcaacgacaaccgggcaaaacaacaatagcaactttgcctggactgctgggaccaaatac catctgaatggaagaaattcattggctaatcctggcatcgctatggcaacacacaaagacgacgaggagcgtttttttcccagtaacgggatcctgatttttggcaaacaaaatgctgccagagaca atgcggattacagcgatgtcatgctcaccagcgaggaagaaatcaaaaccactaaccctgtggctacagaggaatacggtatcgtggcagataacttgcagcagcaaaacacggctcctcaaattg gaactgtcaacagccagggggccttacccggtatggtctggcagaaccgggacgtgtacctgcagggtcccatctgggccaagattcctcacacggacggcaacttccacccgtctccgctgatggg cggctttggcctgaaacatcctccgcctcagatcctgatcaagaacacgcctgtacctgcggatcctccgaccaccttcaaccagtcaaagctgaactctttcatcacgcaatacagcaccggacaggtc agcgtggaaattgaatgggagctgcagaaggaaaacagcaagcgctggaaccccgagatccagtacacctccaactactacaaatctacaagtgtggactttgctgttaatacagaaggcgtgt actctgaaccccgccccattggcacccgttacctcacccgtaatctgtaa
Validated mJUNB Target Region Sequence
AAGAGTCGTCGTGATAGAAAGG
Validated siRNA against RBJP and Hes1
RBJP: CGGCAUUACUGGAUGCAGATT Hes1: CACUGAUUUUGGAUGCACUTT
CRISPR/Cas9-based generation of knockdown mice by intronic insertion of artificial microRNA using longer single-stranded DNA
Knockdown mouse models, where gene dosages can be modulated, provide valuable insights into gene function. Typically, such models are generated by embryonic stem (ES) cell-based targeted insertion, or pronuclear injection, […]
Validated SARM1 shRNA
5’CCGGCAAGGTCTATGCGATGCTATACTCGAGTATAGCATCGCATAGACCTTGTTTTTG 3’
Easi-CRISPR for creating knock-in and conditional knockout mouse models using long ssDNA donors
CRISPR/Cas9-based genome editing can easily generate knockout mouse models by disrupting the gene sequence, but its efficiency for creating models that require either insertion of exogenous DNA (knock-in) or replacement […]
One-Step Generation of Mice Carrying Mutations in Multiple Genes by CRISPR/Cas-Mediated Genome Engineering
Mice carrying mutations in multiple genes are traditionally generated by sequential recombination in embryonic stem cells and/or time-consuming intercrossing of mice with a single mutation. The CRISPR/Cas system has been […]
One-step generation of complete gene knockout mice and monkeys by CRISPR/Cas9-mediated gene editing with multiple sgRNAs
The CRISPR/Cas9 system is an efficient gene-editing method, but the majority of gene-edited animals showed mosaicism, with editing occurring only in a portion of cells. Here we show that single […]