Srrm2 (NM_175229) Mouse Untagged Clone

Specifications

Product Data
Type	Mouse Untagged Clone
Tag	Tag Free
Synonyms	5033413A03Rik; AA410130; mKIAA0324; SRm300
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >MC225372 representing NM_175229 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGTTGCTGGAAAAGGATGTGAACCCTGGGGCCAAGGAAGAAACCCCAGGGCAGAGACCAGTGGTAACTG AGACCCATCAGTTGGCAGAACTGAATGAGAAGAAGAATGAACGACTCCGTGCTGCCTTTGGCATCAGTGA CTCCTATGTGGATGGCAGTTCTTTTGATCCTCAGAGACGTGCTCGAGAAGCTAAACAAATAGCTCCTGAG CCTCCCAAACCATACAGCCTTGTTCGAGAGACCAGCAGTTCTCGCTCACCAACTCCAAAGCAAAAGAAGA AGAAAAAGAAGAAAGATAGAGGACGCAGGTCAGAGAGCAGTTCTCCTCGACGAGAGAGGAAGAAGAGTTC AAAGAAGAAGAAGCACAGGTCAGAATCTGAGTCCAAGAAACGGAAACACAGGTCTCCTACTCCAAAGAGC AAACGCAAATCAAAGGACAAGAAGAGGAAACGGTCTCGAAGTACAACACCAGCTCCTAAGAGCCGTCGAG CTCATCGGTCAACTTCTGCGGACTCTGCTTCTTCCTCTGATACTTCTCGTAGTCGGTCTCGAAGTGCTGC TGCTAAAATTCATACAACAGCCTTGACTGGGCAAAGTCCTCCCCTTGCTTCAGGGCATCAAGGGGAGGGA GATGCACCTTCTGTTGAACCAGGTGCCACCAACATACAACAACCTAGTAGCCCAGCTCCCTCTACAAAGC AATCTAGCAGTCCTTATGAAGACAAAGATAAGAAAGAGAAATCTGCAGTTCGACCTAGCCCCTCTCCGGA AAGGAGCAGCACAGGGCCAGAACTACCTGCCCCTACTCCGCTCCTTGTTGAGCAACATGTCGACTCCCCA CGACCCCTTGCAGCAATCCCGTCCAGTCAGGAGCCAGTTAACCCCTCATCTGAGGCTTCCCCAACCCGGG GCTGTTCACCACCTAAGTCTCCTGAGAAACCTCCCCAGTCTACTTCCTCAGAAAGTTGCCCACCATCCCC TCAACCTACCAAAGGTTCTCGGCATGCCAGCTCTTCTCCTGAAAGTCTTAAACCCACACCAGCTCCTGGG TCCCGTCGAGAGATTTCTTCTTCACCCACATCTAAGAATCGCTCGCATGGCAGAGCAAAGCGGGATAAAT CTCATTCTCATACCCCATCTCATAGAGCAGGGAGGTCTCGTAGTCCTGCCACTAAGAGGGGACGGTCTCG ATCTAGAACCCCCACCAAGAGAGGTCACTCCAGGTCCCGGTCCCCTCAGTGGAGAAGGTCAAGATCTGCA CAGAGGTGGGGAAAATCTAGAAGTCCCCAGAGGCGTGGCCGTTCAAGGTCTCCTCAGAGGCCAGGTTGGT CCAGGAGCAGAAATACCCAGAGAAGAGGCAGGTCTAGGTCAGCAAGGCGAGGCAGATCACATTCTAGATC TCCAGCTACTAGGGGCAGATCCCGATCTAGAACACCAGCTAGAAGGGGTAGGTCTCGGTCCAGAACACCT GCCAGGCGAAGATCACGATCCAGAACACCTGCCAGGCGTAGGTCTCGGTCTAGAACACCAGCTCGCAGGG GCAGGTCCAGATCAAGAACACCCGCTCGCCGCAGGTCTAGGACACGATCACCAGTTCGAAGGAGGTCTCG GAGTAGATCCCAAGCTAGGAGAAGTGGTAGGTCTAGGTCCAGAACACCAGCCAGGAGAAGTGGCAGGTCA AGATCTAGAACACCAGCCAGGAGAGGGAGGTCCCGGTCTAGAACGCCAGCCAGAAGAAGCGCTCGATCTC GGTCTAGAACGCCAGCCAGGAGAGGGAGGTCACGATCCAGAACACCAGCACGACGACGATCTCGAAGTAG AAGTCTTGTGAGACGTGGAAGATCTCACTCTAGAACACCACAAAGAAGAGGACGATCTGGCTCATCCTCA GAGAGGAAGAACAAATCTAGAACATCTCAGAGGAGAAGCAGATCCAACTCAAGCCCAGAAATGAAAAAAT CTCACGTTTCCTCAAGACGGAGCAGGTCTCTTTCTTCACCACGATCCAAAGCAAAATCTTTGAGGCGAAG CCTTTCAGGTTCCTCTCCATGTCCTAAACAAAAGTCACAGACACCAACCAGGCGAAGTCGTTCTGGTTCT TCACCACCTAAACAAAAGTCAAAAACACCACCAAGACAGAGTCGTTCAAATTCTCCTCAGCCTAAAGTAA AATCTGGAACACCACCAAGACCAGGGTCTGTAACAAACATGCAGGCTGATGAATGCACTGCAACACCACA GAGACAGAGCCATTCTGAATCATCACCTGATGGTGAGGTGAAATCAAGGACCCCATCAAGACAAAGCTGC TCTGGGTCTTCTCCTCGAGTGAAATCTAGCACACCTCCAAGACAGAGCCCATCTAGGTCGTCATCTCCAC AACCCAAAGTGAAGACAGTGATATCACCAAGAGGAAGAAGCCATTCTAGCTCCTCTTCTCCAAGTCCTAG TAGAGTGACATCTAGGACACCTCAGAGGAAAAGCAGATCAATATCTCCTTGCCCCAAGGTAGACTCTAGA TTAAGACATAGCCGTTCTAGATCCTCCTCACCAGATTCCAAGATGGAACTGGGAACACCACTGAGACACT CAGGATCTACATCTCCATATCTAAAAAGCATGCTCCAGACTCCACCAGATCAAAATCTTTCTGGATCAAA GTCACCCTGTCCCCAGAAGTCTAGGGATTCACCAACAGGAAGCTCTGGATCTTTTCACCTCTGTCCAGGT GTAACACCTAGTAGTATAGTACCAGGAGAGAGCTGTTTTAGCGCCTCATTTGTGCAACAAAAAGGACACA CTCAAACTTGGCCAGATACTTCAAGTCCAGAAGTCATGCAGACTCAAGTGGAATCTCCATTGCTGCAGAG CAAATCCCAAACATCTCCTAAGGGTAGCCTTTCCAGATCTTCATCTCCAGTCACTGAGCTGACAGCCAGA TCACCAGTAAAACAAGATAAAAGTGAAATATCAACAGATCCAAAGCTGAAGTCAGGAATGTCTCCTGAGC AGAGTAAGACTAAACCTGACTCTAGCATATATCCTTTAGTAGACTCTAAATCTTTTCTGGTGCAGAGCAG ATTGGAGCCTTCTGAATTAAAAGAGAGACTGGGTTTAATTCAAGAGGATGTTGCATCATCTTGTATACCA AGAGACAAATTTAGTCCTACACAGGATAGGCCTGAGTCTTCCACAGTACTGAAAGTCACACCTAGAGTAC TATTAAAAGAAAGAAGTGGAGCTGGCTCACCTCCAGGCAAAAGAGACCAAAAAAGTTTATTACCTAATTC AAGTCAAGATGAACTAATGGAAGTAGAAAAGTCTGAGCAACCTTTAAGCCAAGTTCTACCCAGTTTATCT CCAGAACATAAAGAAATGCCTGGAAGTAACATTGAGTCATCTCCTGAAGTAGAAGAAAGGCCTGCTGTAT TGTCTGCTCTTGACCAAAGCCAGTCACAGCCTTCAAAAGCAGCAGAAACCCCTGCAGTGGCTTCATGTTG GAGTGGGCCACAAGTTTCTCCAGAGCATAAAGAACTATCTCATTCTCCCCCAAGGGAGAATAGCTTTGAG TCATCTTTAGAGTTTAAAAACTCAGGCCCTGTTTCAGAAGTAAATACTGGCTTTTCTCCTGAGGTTAAAG AAGAATTGAATGGATCATTCCTTAATCAAACAGAGGCAGATCCATCTGTGGACATGAAAGAACAGTCAAG GTCTTCCAGGCGAAGCAGTTCTGAGTTATCCCCAGAAGTAGTGGAAAAGGTAGGATTATTTTCAAGTCAG AAAGTATCTTCGCCTGTACTTGAGACTGTACAACAAAGAACACCTTCAAGAGAAAGAAGTAGTTCTGCAT CTCCTGAACTGAAAGATGGTTTGCCTAGAACGCCATCTAGGAGAAGCCGGTCTGGGTCTTCTCCAGGACT TAGAGATGGGTCTGGGACTCCTTCTAGGCATAGCCTATCTGGGTCCTCTCCTGGGATGAAAGATACACCT CAAACCCCCTCCAGGGGACGAAGTGAATGTGACTCTTCTCCAGAACCAAAAGCATTGCCTCAGACTCCTA GAGCCCGAAGTCATTCTCCATCATCCCCAGAGCGCAACAACAAGAGTGTCACCCCTCAGAGAGAAAGAAG TGGGTCAGAATCATCAGTAGAACAGAAAAATCTGGCTAGGACCTCTCCGGGACAAAGAAGTCGATCTGGG TCTTCCCAAGAGCTTGATGGAAAGCCCAGCGCGTCCCCACAGGAAAGAAGTGAGTCAGACTCTTCTCCAG ATTCCAAACCCAAGACTCGGACTCCTCTCAGACAGAGGAGTCACTCTGGATCATCTCCAGAGGTTGACAG CAAATCTCGACACTCACCCAGGCTCAGTAGGTCTGGCTCATCTCCGGAAATGAAAGATAAGCCAAGAGTG CTACAGAGGGCTCAGAGTGGTACTGATTCTTCTCCTGAACACAAGATACCTGCTCCTCGGGCCCTGCCCA GGCATAGTAGATCAGGTTCATCAAGCAAAGAGAGAGGTCCTTCCCCTGAAGGAAGCAGTAGTTCTGAGTC TTCTCCAGAACACGCCCCCAAATCCAGAACTGCTCGAAGAGGTTCCAGGTCCTCAATAGAGCCAAAGACA AAGTCTCACACACCACCTCGACGCCGGAGCTCTCGATCATCTCCTGAGCTAACCAGGAAGGCTAGAGTCT CTCGTAGAAGCCGGTCTGCCTCCTCATCACCAGAAATCCGCTCCAGAACTCCACCAAGACGCAGAAGAAG TCCTTCAGTATCTTCACCAGAGCCAACTGAAAAGTCAAGGTCTTCACGGAGGAGGCGCTCAGTTTCTTCT CCCCGTACCAAGACAACTTCGAGGAGAGGACGGTCTCCTTCACCCAAACCTCGTGGACTCCAAAGATCCC GATCCCGCTCACGGAGAGAGAAAACCAGAACAACCCGACGCAGAGATAGATCTGGATCATCTCAGTCAAC ATCTCGAAGAAGACAGAGGAGCCGGTCTAGATCACGAGTTACTCGGAGACGGAGGGGTGGCTCTGGTTAC CATTCAAGATCACCTACCAGACAGGAGAGTTCTCGAACCTCCTCTAGACGCAGAAGAGGCCGCTCCCGGA CACCCTTGACCAGTCGGAAGCGATCTCGATCAAGAACATCACCAGCTCCTTGGAAGCGCTCTAGATCTCG AGCCTCACCAGCTACTCATCGGCGGTCCAGGTCCAGAACACCACTGATAAGCCGACGTAGGTCCAGATCT CGGACCTCACCTGTGAGTAGGAGACGGTCAAGGTCAGTGAATAGGCGTAGATCTCGATCAAGAGCATCCC CAGTGAGTCGAAGGCGATCCAGGTCCAGAACACCACCAGTAACTCGTCGTCGTTCAAGATCCAGAACACC AACTCGCCGTCGTTCTCGTTCTAGGACTCCTCCAGTGACTCGCAGAAGGTCCAGATCCAGGACTCCACCA GTAACCAGGAGGCGATCTAGAAGCAGAACTTCACCTGTTACTAGAAGAAGATCAAGATCCAGGACATCCC CAGTCACCCGGAGAAGATCGAGATCTCGAACATCTCCAGTCACCCGGAGGCGGTCCCGTTCCCGAACCTC TCCAGTGACAAGACGACGCTCCAGGTCTCGAACTCCGCCAGCAATTCGAAGACGATCTAGGTCTCGGACA CCACTGTTGCCACGCAAGCGCTCTCGAAGCCGCTCACCACTTGCTATCCGCCGCCGTTCTAGGTCTCGTA CTCCTAGGGCAGCTCGAGGCAAGCGGTCCTTAACAAGATCTCCTCCAGCCATTCGTAGGCGGTCTGCATC TGGAAGTAGTTCTGATCGTTCACGTTCTGCCACTCCTCCAGCAACAAGGAATCATTCTGGATCTCGGACA CCTCCTGTAGCACTCAGTAGCTCTAGAATGAGTTGCTTTAGCCGTCCTAGCATGTCACCAACTCCTCTTG ACCGATGTAGATCACCTGGAATGCTTGAACCCCTTGGAAGCGCTAGAACGCCCATGTCTGTGCTACAGCA AACAGGTGGCTCCATGATGGATGGTCCAGGTCCTCGGATTCCTGATCACCCAAGATCATCTGTTCCAGAA AACCATGCTCAGTCTAGAATTGCACTTGCCTTGACAGCCATCAGTCTTGGTACTGCCCGGCCACCTCCAT CCATGTCTGCTGCTGGCCTTGCTGCAAGAATGTCCCAGGTTCCAGCACCTGTACCTCTCATGAGCCTTAG AACAGCCCCAGCTGCTAACCTTGCCAGCAGGATTCCAGCAGCATCTGCAGCAGCTATGAACCTTGCTAGT GCCAGGACATCTGCTATTCCGGCATCTGTGAACCTTGCTGACTCAAGAACACCAGCTGCTGCTGCAGCTA TGAACTTAGCCAGCCCTAGAACAGCAGTGGCTCCTTCAGCTGTGAACCTTGCAGATCCTCGAACCCCTGC AGCTTCAGCTGTGAACCTAGCAGGAGCTAGAACACCAGCTGCATTAGCAGCTTTGAGTCTCACAGGCTCT GGGACACCTCCAACTGCTGCAAATTACCCCTCCAGTTCCAGAACACCCCAGGCTCCAACCCCCGCAAACC TGGTGGTGGGTCCTCGATCTGCGCATGGCACAGCTCCTGTGAATATTGCTGGCTCTAGAACCCCTGCAGG CTTGGCTCCCACAAATCTCTCCAGTTCCAGGATGGCTCCAGCATTGTCTGGTGCAAACCTCACCAGTCCC AGGGTGCCCCTTTCTGCTTATGATCGTGTTAGTGGCAGAACCTCACCTTTAATGCTTGATCGAGCCAGGT CCAGAACACCACCATCTGCCCCAAGCCAGTCTAGAATGACCTCTGAGCGTGAGCGGGCTCCTTCCCCTGC TTCAAGAATGGTTCAGGCTTCTTCGCAATCTCTTCTCCCTCCTGCACAGGATCGGCCTCGGTCCCCTGTG CCATCTGCTTTTTCAGACCAATCTCGTTCAGTTGTCCAGACCACTCCTGTAGCAGGGTCTCAGTCCCTTT CATCCGGGACAGTAGCGAAGTCCACATCCTCTGCTAGTGACCACAATGGCATGCTTTCTGGCCCTGCCCC TGGGATATCCCATGCTGAAGGTGGGGAGCCACCTGCCTCTACTGGGGCCCAGCAGCCTTCTACATTGGCT GCTCTGCAACCAGCTAAGGAACGTCGGAGCTCTTCCTCCTCTTCATCATCATCTAGCTCCTCCTCCTCTT CATCATCTTCATCGTCATCCTCCTCTTCCTCTGGCTCCAGTTCTAGTGATTCAGAGGGTTCCAGCCTTCC AGCTCAACCTGAGGTGGCACTGAAAAGGGTTCCCAGCCCCACCCCAGTCCCAAAGGAGGCTATTAGAGAG GGACGTCCTCAGGAACCAACCCCGGCCAAAAGGAAGAGGCGCTCTAGCAGCTCCAGTTCCAGCTCCTCCT CCTCCTCCTCTTCCTCTTCTTCCTCTTCCTCCTCCTCCTCATCTTCCTCCTCCTCTTCTTCCTCTTCTTC CTCCTCTTCTTCCTCCTCTTCCTCCTCCCCCTCCCCTGCTAAGCCTGGCCCTCAGGCATTACCCAAACCT GCAAGCCCCAAGAAGCCACCCCCTGGCGAGAGGAGGTCTCGAAGTCCTCGGAAGCCAATAGACTCCCTTC GGGATTCCCGATCCCTCAGTTACTCACCCGTTGAGCGTCGACAGCCCTCGCCCCAACCTTCACCAAGGGA TCTACAGAGCAGTGAGCGAGTTTCCTGGAGAGGCCAGCGAGGGGACAGTCACTCTCCTGGTCACAAGAGG AAGGAGACACCTAGTCCCCGTTCTAATCGTCACCGCTCCTCCAGGTCTCCATAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-MluI
ACCN	NM_175229
Insert Size	7824 bp
OTI Disclaimer	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).
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_175229.3, NP_780438.2
RefSeq Size	8613 bp
RefSeq ORF	7824 bp
Locus ID	75956
UniProt ID	Q8BTI8
Gene Summary	Required for pre-mRNA splicing as component of the spliceosome.[UniProtKB/Swiss-Prot Function]

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