Notch4 (NM_010929) Mouse Tagged ORF Clone
CAT#: MR223369
- TrueORF®
Notch4 (Myc-DDK-tagged) - Mouse Notch gene homolog 4 (Drosophila) (Notch4)
ORF Plasmid: tGFP
"NM_010929" in other vectors (2)
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CNY 13,208.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | Int-3; Int3; N4 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR223369 ORF sequence
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGCAGCCCCAGTTGCTGCTGCTGCTGCTCTTGCCACTCAATTTCCCTGTCATCCTGACCAGAGAGCTTC TGTGTGGAGGATCCCCAGAGCCCTGTGCCAACGGAGGCACCTGCCTGAGGCTATCTCGGGGACAAGGGAT CTGCCAGTGTGCCCCTGGATTTCTGGGTGAGACTTGCCAGTTTCCTGACCCCTGCAGGGATACCCAACTC TGCAAGAATGGTGGCAGCTGCCAAGCCCTGCTCCCCACACCCCCAAGCTCCCGTAGTCCTACTTCTCCAC TGACCCCTCACTTCTCCTGCACCTGCCCCTCTGGCTTCACCGGTGATCGATGCCAAACCCATCTGGAAGA GCTCTGTCCACCTTCTTTCTGTTCCAACGGGGGTCACTGCTATGTTCAGGCCTCAGGCCGCCCACAGTGC TCCTGCGAGCCTGGGTGGACAGGTGAGCAATGCCAGCTCCGAGACTTCTGCTCAGCCAACCCCTGTGCCA ACGGAGGCGTGTGCCTGGCCACATACCCCCAGATCCAGTGCCGCTGTCCACCTGGGTTCGAGGGTCACAC CTGTGAACGCGACATCAACGAGTGCTTCCTGGAGCCGGGACCCTGCCCTCAGGGCACCTCCTGCCATAAC ACCTTGGGTTCCTACCAGTGTCTCTGCCCTGTGGGGCAGGAAGGTCCCCAGTGCAAGCTCAGGAAGGGAG CCTGCCCTCCTGGAAGCTGTCTCAATGGGGGCACCTGCCAGCTGGTCCCAGAGGGACACTCCACCTTTCA TCTCTGCCTCTGTCCCCCAGGTTTCACGGGGCTGGACTGTGAGATGAACCCAGATGACTGTGTCAGGCAC CAGTGTCAGAACGGGGCCACCTGTCTGGATGGGCTGGACACCTACACCTGCCTCTGCCCCAAGACATGGA AGGGCTGGGACTGCTCTGAAGATATAGATGAATGTGAAGCCCGGGGTCCCCCTCGCTGCAGGAACGGTGG CACCTGCCAGAACACAGCTGGCAGCTTTCACTGTGTGTGCGTGAGTGGCTGGGGAGGCGCAGGCTGTGAG GAGAACCTGGATGACTGTGCAGCTGCCACCTGTGCCCCGGGATCCACCTGCATCGACCGTGTGGGCTCCT TCTCCTGCCTCTGCCCACCTGGACGCACAGGCCTCCTGTGCCACCTGGAAGACATGTGTTTGAGTCAGCC GTGCCACGTGAATGCCCAGTGCAGCACCAACCCTCTGACAGGCTCCACCCTCTGCATATGCCAGCCTGGC TACTCAGGATCCACCTGTCACCAAGATCTGGATGAGTGCCAAATGGCCCAGCAAGGACCCAGTCCCTGCG AACATGGCGGCTCCTGCATCAACACCCCTGGCTCCTTCAACTGCCTCTGCCTGCCTGGTTACACGGGCTC CCGCTGTGAAGCTGACCACAATGAGTGCCTGTCACAGCCCTGCCACCCAGGCAGCACCTGCCTGGACCTG CTTGCAACCTTCCACTGCCTCTGCCCACCAGGCTTGGAAGGGAGGCTCTGTGAGGTGGAGGTCAATGAGT GCACCTCTAATCCCTGCCTGAACCAAGCTGCCTGCCATGACCTGCTCAACGGCTTCCAGTGCCTCTGCCT TCCTGGATTCACCGGCGCCCGATGTGAGAAAGACATGGACGAGTGTAGCAGCACCCCCTGTGCCAATGGG GGGCGCTGCCGAGACCAGCCTGGAGCCTTCTACTGCGAGTGTCTCCCAGGCTTTGAAGGGCCACACTGTG AGAAAGAAGTGGACGAATGTCTGAGTGACCCCTGCCCCGTGGGAGCCAGCTGCCTTGATCTCCCCGGAGC ATTCTTCTGCCTCTGCCGTCCTGGTTTCACAGGTCAACTTTGTGAGGTTCCCTTGTGCACCCCCAACATG TGCCAACCTGGACAGCAATGCCAAGGTCAGGAACACAGAGCCCCCTGCCTCTGCCCTGACGGAAGTCCTG GCTGTGTTCCTGCCGAGGACAACTGCCCCTGTCACCATGGCCATTGCCAGAGATCCTTGTGTGTGTGTGA TGAGGGCTGGACTGGACCAGAATGCGAGACAGAACTGGGTGGCTGCATCTCCACACCCTGTGCCCATGGG GGGACCTGCCACCCACAGCCATCTGGCTACAACTGTACCTGCCCTGCAGGCTACATGGGGTTGACCTGTA GTGAGGAGGTGACAGCTTGTCACTCAGGGCCCTGTCTCAATGGTGGCTCCTGCAGCATCCGTCCTGAGGG CTATTCCTGCACCTGCCTTCCAAGTCACACAGGTCGCCACTGCCAGACTGCCGTGGACCACTGTGTGTCT GCCTCGTGCCTCAATGGGGGTACCTGTGTGAACAAGCCTGGCACTTTCTTCTGCCTCTGTGCCACTGGCT TCCAGGGGCTGCACTGTGAGGAGAAGACTAACCCCAGCTGTGCAGACAGCCCCTGCAGGAACAAGGCAAC CTGCCAAGACACACCTCGAGGGGCCCGCTGCCTCTGCAGCCCTGGCTATACAGGAAGCAGCTGCCAGACT CTGATAGACTTGTGTGCCCGGAAGCCCTGTCCACACACTGCTCGATGCCTCCAGAGTGGGCCCTCGTTCC AGTGCCTGTGCCTCCAGGGATGGACAGGGGCTCTCTGTGACTTCCCACTGTCCTGCCAGAAGGCCGCGAT GAGCCAAGGCATAGAGATCTCTGGCCTGTGCCAGAATGGAGGCCTCTGTATTGACACGGGCTCCTCCTAT TTCTGCCGCTGCCCTCCTGGATTCCAAGGCAAGTTATGCCAGGATAATGTGAACCCCTGTGAGCCCAATC CCTGCCATCACGGGTCTACCTGTGTGCCTCAGCCCAGTGGCTATGTCTGCCAGTGTGCCCCAGGCTATGA GGGACAGAACTGCTCAAAAGTACTTGACGCTTGTCAGTCCCAGCCCTGCCACAACCACGGAACCTGTACC TCCAGGCCTGGAGGCTTCCACTGTGCCTGCCCTCCAGGCTTCGTGGGACTGCGCTGTGAGGGAGATGTGG ATGAGTGTCTGGACCGGCCCTGTCACCCCTCGGGCACTGCAGCTTGCCACTCTTTAGCCAACGCCTTCTA CTGCCAGTGTCTGCCTGGGCACACAGGCCAGCGGTGTGAGGTGGAGATGGACCTCTGTCAGAGCCAACCC TGCTCCAATGGAGGATCCTGTGAGATCACAACAGGGCCACCCCCTGGCTTCACCTGTCACTGCCCCAAGG GTTTTGAAGGCCCCACCTGCAGCCACAAAGCCCTTTCCTGCGGCATCCATCACTGCCACAATGGAGGCCT ATGTCTGCCCTCCCCTAAGCCAGGGTCACCACCACTCTGTGCCTGCCTCAGTGGTTTTGGGGGCCCTGAC TGTCTGACACCTCCAGCTCCACCGGGCTGCGGTCCCCCCTCACCCTGCCTGCACAATGGTACCTGCACTG AGACCCCTGGGTTGGGCAACCCGGGCTTTCAATGCACCTGCCCTCCTGACTCTCCAGGGCCCCGGTGTCA AAGGCCAGGGGCAAGTGGGTGTGAGGGCCGAGGTGGTGATGGGACCTGCGATGCTGGCTGCAGTGGCCCA GGAGGAGACTGGGATGGAGGGGACTGTTCCCTGGGGGTCCCAGACCCCTGGAAGGGCTGTCCCCCGCATT CCCAGTGCTGGCTTCTGTTCCGGGACGGACGGTGTCACCCGCAGTGTGACTCTGAGGAGTGTCTCTTTGA TGGCTACGACTGTGAAATCCCTCTAACCTGCATCCCAGCCTATGACCAGTACTGCCGAGATCACTTCCAC AACGGGCACTGTGAGAAAGGCTGCAATAACGCTGAATGTGGCTGGGACGGGGGAGACTGCAGACCAGAAG GGGAAGACTCAGAGGGGAGGCCCTCCCTGGCCCTGCTGGTGGTGCTGAGGCCCCCAGCCCTGGATCAGCA GCTGCTTGCCCTGGCACGAGTGCTGTCCCTGACTCTGAGGGTCGGTCTCTGGGTGAGGAAGGACAGTGAA GGCAGGAACATGGTGTTCCCCTATCCTGGGACCCGGGCCAAAGAGGAGCTGAGTGGAGCTAGGGATTCCT CTTCATGGGAAAGACAAGCCCCTCCCACTCAGCCCCTGGGCAAGGAGACAGAGTCTCTTGGTGCAGGGTT TGTGGTAGTGATGGGAGTGGATCTGTCCCGCTGTGGTCCGGAACATCCTGCGTCCCGCTGCCCCTGGGAC TCTGGACTCCTGCTGCGCTTCCTTGCAGCAATGGCAGCAGTGGGAGCTCTGGAGCCCCTGCTGCCTGGAC CCTTGCTGGCGGCTCACCCTCAAGCAGGGACCAGGCCCCCTGCCAACCAGCTTCCCTGGCCCATTCTATG TTCACCAGTGGTTGGGGTGCTTCTCCTGGCCCTTGGGGCCCTTCTCGTCCTCCAGCTCATTCGGCGCCGG CGACGAGAACATGGGGCCCTGTGGCTGCCCCCTGGTTTCATTCGAAGGCCTCAGGCACAGCAGGCACCCC ACCGGCGGAGGCCCCCACTGGGCGAGGACAACATTGGTCTTAAGGCACTGAAGCCAGAGGCCGAAGTGGA TGAGGATGGAGTGGCCATGTGCTCGGGCCCTGAAGAGGGAGAGGCTGAAGAAACAGCCTCAGCCTCCAGG TGCCAGCTTTGGCCGCTCAACAGCAGCTGTGGAGAGCTCCCCCAGGCAGCCATGCTGACCCCTCCTCAGG AGTGTGAATCGGAGGTTCTGGATGTGGACACCTGTGGACCTGATGGGGTGACACCCCTGATGTCAGCCGT CTTCTGTGGGGGAGTGCAGTCCACGACTGGGGCTAGTCCACAGAGACTGGGGCTAGGAAATCTGGAACCC TGGGAACCACTGCTGGATAGAGGGGCCTGCCCCCAGGCTCACACTGTGGGCACTGGAGAGACGCCTCTGC ACCTAGCTGCCAGATTCTCTCGGCCAACCGCTGCCCGTCGCCTTCTTGAGGCTGGAGCCAACCCCAATCA GCCAGACCGCGCTGGGCGCACCCCACTTCACACTGCTGTGGCTGCCGACGCTCGGGAGGTTTGCCAGCTC CTATTGGCCAGCAGACAGACTTCGGTGGACGCCCGCACAGAGGACGGGACTACACCTTTGATGCTGGCTG CCAGGCTGGCCGTGGAGGACCTGGTTGAAGAATTGATCGCAGCCCGAGCAGATGTAGGAGCCAGGGATAA AAGGGGAAAAACTGCACTGCACTGGGCCGCTGCTGTGAACAACGCCCGAGCCGCCCGCTCTCTCCTCCAG GCTGGAGCGGATAAAGATGCCCAGGACAGTAGGGAACAGACGCCGCTTTTCCTGGCAGCGCGCGAAGGAG CCGTGGAGGTGGCGCAGCTGTTGCTGGAGCTCGGGGCGGCCCGGGGACTGCGAGACCAGGCCGGGCTGGC CCCAGGAGATGTGGCCCGCCAGCGCAGTCACTGGGACCTGCTAACGCTGCTGGAAGGGGCTGGACCGACT ACGCAGGAGGCCCGTGCGCACGCACGCACCACGCCGGGGGGCGGGGCCGCGCCGCGCTGCCGGACGCTGT CTGCGGGAGCGCGCCCGCGCGGGGGCGGAGCCTGTCTGCAGGCTCGCACTTGGTCGGTGGACTTGGGAGC GCGCGGAGGGAAGGTGTATGCTCGCTGCCGGAGCCGATCTGGAAGCTGCGGAGGCCCCACCACGCGCGGC CGCAGGTTCTCCGCGGGCTCCCGTGGACGACGCGGGGCTAGGGCATCACAGGATGACTGGCCTCGCGACT GGGTGGCCCTGGAAGCCTGCGGCTCCGCCTGCAGTGCGCCGATCCCGCCTCCCAGCCTGACCCCGTCCCC AGAACGTGGATCCCCTCAAGTTGCCTGGGGTCTTCCAGTTCACCAAGAGATTCCCTTAAACTCGGTTGTA AGAAATCTGAAC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR223369 protein sequence
Red=Cloning site Green=Tags(s) MQPQLLLLLLLPLNFPVILTRELLCGGSPEPCANGGTCLRLSRGQGICQCAPGFLGETCQFPDPCRDTQL CKNGGSCQALLPTPPSSRSPTSPLTPHFSCTCPSGFTGDRCQTHLEELCPPSFCSNGGHCYVQASGRPQC SCEPGWTGEQCQLRDFCSANPCANGGVCLATYPQIQCRCPPGFEGHTCERDINECFLEPGPCPQGTSCHN TLGSYQCLCPVGQEGPQCKLRKGACPPGSCLNGGTCQLVPEGHSTFHLCLCPPGFTGLDCEMNPDDCVRH QCQNGATCLDGLDTYTCLCPKTWKGWDCSEDIDECEARGPPRCRNGGTCQNTAGSFHCVCVSGWGGAGCE ENLDDCAAATCAPGSTCIDRVGSFSCLCPPGRTGLLCHLEDMCLSQPCHVNAQCSTNPLTGSTLCICQPG YSGSTCHQDLDECQMAQQGPSPCEHGGSCINTPGSFNCLCLPGYTGSRCEADHNECLSQPCHPGSTCLDL LATFHCLCPPGLEGRLCEVEVNECTSNPCLNQAACHDLLNGFQCLCLPGFTGARCEKDMDECSSTPCANG GRCRDQPGAFYCECLPGFEGPHCEKEVDECLSDPCPVGASCLDLPGAFFCLCRPGFTGQLCEVPLCTPNM CQPGQQCQGQEHRAPCLCPDGSPGCVPAEDNCPCHHGHCQRSLCVCDEGWTGPECETELGGCISTPCAHG GTCHPQPSGYNCTCPAGYMGLTCSEEVTACHSGPCLNGGSCSIRPEGYSCTCLPSHTGRHCQTAVDHCVS ASCLNGGTCVNKPGTFFCLCATGFQGLHCEEKTNPSCADSPCRNKATCQDTPRGARCLCSPGYTGSSCQT LIDLCARKPCPHTARCLQSGPSFQCLCLQGWTGALCDFPLSCQKAAMSQGIEISGLCQNGGLCIDTGSSY FCRCPPGFQGKLCQDNVNPCEPNPCHHGSTCVPQPSGYVCQCAPGYEGQNCSKVLDACQSQPCHNHGTCT SRPGGFHCACPPGFVGLRCEGDVDECLDRPCHPSGTAACHSLANAFYCQCLPGHTGQRCEVEMDLCQSQP CSNGGSCEITTGPPPGFTCHCPKGFEGPTCSHKALSCGIHHCHNGGLCLPSPKPGSPPLCACLSGFGGPD CLTPPAPPGCGPPSPCLHNGTCTETPGLGNPGFQCTCPPDSPGPRCQRPGASGCEGRGGDGTCDAGCSGP GGDWDGGDCSLGVPDPWKGCPPHSQCWLLFRDGRCHPQCDSEECLFDGYDCEIPLTCIPAYDQYCRDHFH NGHCEKGCNNAECGWDGGDCRPEGEDSEGRPSLALLVVLRPPALDQQLLALARVLSLTLRVGLWVRKDSE GRNMVFPYPGTRAKEELSGARDSSSWERQAPPTQPLGKETESLGAGFVVVMGVDLSRCGPEHPASRCPWD SGLLLRFLAAMAAVGALEPLLPGPLLAAHPQAGTRPPANQLPWPILCSPVVGVLLLALGALLVLQLIRRR RREHGALWLPPGFIRRPQAQQAPHRRRPPLGEDNIGLKALKPEAEVDEDGVAMCSGPEEGEAEETASASR CQLWPLNSSCGELPQAAMLTPPQECESEVLDVDTCGPDGVTPLMSAVFCGGVQSTTGASPQRLGLGNLEP WEPLLDRGACPQAHTVGTGETPLHLAARFSRPTAARRLLEAGANPNQPDRAGRTPLHTAVAADAREVCQL LLASRQTSVDARTEDGTTPLMLAARLAVEDLVEELIAARADVGARDKRGKTALHWAAAVNNARAARSLLQ AGADKDAQDSREQTPLFLAAREGAVEVAQLLLELGAARGLRDQAGLAPGDVARQRSHWDLLTLLEGAGPT TQEARAHARTTPGGGAAPRCRTLSAGARPRGGGACLQARTWSVDLGARGGKVYARCRSRSGSCGGPTTRG RRFSAGSRGRRGARASQDDWPRDWVALEACGSACSAPIPPPSLTPSPERGSPQVAWGLPVHQEIPLNSVV RNLN TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_010929 |
ORF Size | 5895 bp |
OTI Disclaimer | 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 clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
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. |
Reference Data | |
RefSeq | NM_010929.2, NP_035059.2 |
RefSeq Size | 6604 bp |
RefSeq ORF | 5895 bp |
Locus ID | 18132 |
UniProt ID | P31695 |
MW | 206.7 kDa |
Gene Summary | Functions as a receptor for membrane-bound ligands Jagged1, Jagged2 and Delta1 to regulate cell-fate determination. Upon ligand activation through the released notch intracellular domain (NICD) it forms a transcriptional activator complex with RBPJ/RBPSUH and activates genes of the enhancer of split locus. Affects the implementation of differentiation, proliferation and apoptotic programs (By similarity). May regulate branching morphogenesis in the developing vascular system.[UniProtKB/Swiss-Prot Function] |
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