Cacna1g (NM_009783) Mouse Tagged ORF Clone

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SKU

MR227520

Cacna1g (Myc-DDK-tagged) - Mouse calcium channel, voltage-dependent, T type, alpha 1G subunit (Cacna1g), transcript variant 1

TrueORF^®
TrueORF^®

Expression-ready ORF plasmid with C-terminal tag(s)

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Datasheet SDS Plasmid Map

NM_009783 in other vectors (2)

Reconstitution Protocol

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$1,894.00

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Frequently Bought Together (5)

TA592569S	DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags	30 ul	$200.00
CC100003	DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)	5 x 200 ul	$160.00
PRIMER	Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each	100 pmol	$59.00
PS100001	pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug	10 ug	$650.00
AR100028M	DDKTrap Anti-DDK 8G6 affinity resin used for the purification of DDK, DYKDDDDK, or FLAG® tagged proteins , 5 mL	5 ml	$720.00

Specifications

Specifications
Product Data
Type	Mouse Tagged ORF Clone
Target Symbol	Cacna1g
Synonyms	a1G; alpha-1G; Cav3.1d; mKIAA1123; [a]1G
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	ORF Nucleotide Sequence >MR227520 representing NM_009783 Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGATGAGGAAGAGGATGGAGCGGGCGCCGAGGAGTCGGGACAGCCCCGGAGCTTCACGCAGCTCAACG ACCTGTCTGGGGCCGGGGGCCGGCAGGGGCCGGGGTCGACGGAAAAGGACCCGGGCAGCGCGGACTCCGA GGCGGAGGGGCTGCCCTACCCGGCGCTGGCCCCGGTGGTTTTCTTCTACTTGAGCCAGGACAGCCGCCCG CGGAGCTGGTGTCTCCGCACGGTCTGTAACCCGTGGTTCGAGCGAGTCAGCATGCTGGTTATTCTCCTCA ACTGTGTGACTCTGGGTATGTTCAGGCCGTGTGAGGACATTGCCTGTGACTCCCAACGCTGCCGGATCCT GCAGGCCTTCGACGACTTCATCTTTGCCTTCTTTGCTGTGGAAATGGTGGTGAAGATGGTCGCTTTGGGT ATCTTTGGGAAGAAATGTTACCTGGGAGACACTTGGAACCGGCTTGACTTTTTTATCGTCATTGCTGGGA TGCTGGAGTACTCGCTGGACCTGCAGAATGTCAGCTTCTCCGCAGTCAGGACAGTCCGTGTGCTGCGACC GCTCAGGGCCATTAACCGGGTGCCCAGCATGCGCATTCTCGTCACATTACTGCTGGATACCTTGCCTATG CTGGGCAATGTCCTGCTGCTCTGTTTCTTCGTCTTTTTCATCTTTGGCATCGTTGGTGTTCAGCTGTGGG CAGGGCTACTTCGAAACCGATGCTTCCTCCCTGAGAATTTCAGCCTCCCGCTGAGTGTGGACTTGGAGCC TTACTACCAGACAGAGAATGAGGACGAGAGCCCCTTCATCTGCTCTCAGCCTCGGGAGAACGGCATGCGA TCCTGCAGGAGCGTGCCCACACTGCGCGGGGAAGGCGGTGGTGGTCCACCCTGCGGTCTGGACTATGAGG CCTATAACAGTTCCAGCAATACCACCTGTGTCAACTGGAACCAATACTATACCAACTGCTCTGCAGGCGA GCACAACCCCTTCAAAGGCGCCATCAACTTTGACAACATTGGCTATGCCTGGATCGCCATCTTCCAGGTC ATCACACTGGAGGGCTGGGTCGACATCATGTACTTTGTGATGGATGCTCATTCCTTCTACAACTTCATCT ACTTCATTCTTCTCATCATCGTGGGCTCCTTCTTCATGATCAACCTGTGCCTGGTGGTGATCGCCACACA GTTCTCTGAGACCAAGCAACGGGAGAGTCAGCTGATGCGGGAGCAGCGTGTACGATTCCTGTCCAATGCT AGCACCCTGGCAAGCTTCTCTGAGCCAGGCAGCTGCTATGAGGAGCTTCTCAAGTACCTGGTGTACATCC TCCGCAAAGCAGCCCGCAGGCTGGCCCAGGTCTCTAGGGCTGTAGGCGTGCGGGCTGGGTTGCTCAGCAG CCCAGTGGCCCGTGGTGGGCAGGAGCCCCAGCCCAGTGGCAGCTGCTCTCGTTCACACCGTCGTCTGTCT GTCCACCACCTGGTCCACCACCATCACCACCACCATCACCACTACCACCTGGGTAATGGGACGCTCAGAG TTCCCCGGGCCAGCCCAGAGATCCAGGACAGGGATGCCAATGGGTCCCGCTGGCTCATGCTGCCACCACC CTCTACCCCCACTCCCTCTGGGGGCCCTCCGAGGGGTGCGGAGTCTGTACACAGCTTCTACCATGCTGAC TGCCACTTGGAGCCAGTCCGTTGCCAGGCGCCCCCTCCCAGGTCCCCATCGGAGGCATCTGGCAGGACTG TGGGTAGTGGGAAGGTATACCCCACTGTGCATACCAGCCCTCCACCAGAGATGCTGAAGGATAAGGCACT AGTGGAGGTGGCCCCCAGCCCTGGGCCCCCCACCCTCACCAGCTTCAACATCCCACCTGGGCCCTTCAGC TCCATGCACAAGCTCCTGGAGACACAGAGTACGGGAGCCTGCCATAGCTCCTGCAAAATCTCCAGCCCTT GCTCCAAGGCAGACAGTGGAGCCTGTGGGCCGGACAGTTGTCCCTACTGTGCCCGGACAGGAGCAGGGGA GCCAGAGTCCGCTGACCATGAAATGCCTGACTCAGACAGTGAGGCTGTGTATGAGTTCACACAGGACGCT CAGCACAGCGACCTCCGGGATCCCCACAGACGGCGACGGCCGAGCCTGGGCCCAGATGCAGAGCCTAGTT CTGTGCTGGCCTTCTGGAGGCTGATCTGCGACACATTCCGGAAGATCGTAGATAGCAAATACTTTGGCCG GGGAATCATGATCGCTATCCTGGTCAATACCCTCAGCATGGGCATCGAGTACCACGAGCAGCCCGAGGAG CTCACCAACGCCCTGGAAATCAGCAACATCGTCTTCACCAGCCTCTTCGCCTTGGAGATGCTGCTGAAGC TGCTCGTCTACGGTCCCTTCGGCTACATTAAGAATCCCTACAACATCTTTGATGGCGTCATTGTGGTCAT CAGCGTGTGGGAGATTGTGGGCCAGCAGGGAGGTGGCCTGTCGGTGCTGCGGACCTTCCGCCTGATGCGG GTGCTGAAGCTAGTTCGCTTCCTGCCGGCACTGCAGCGGCAGCTCGTGGTGCTCATGAAGACCATGGACA ACGTGGCCACCTTCTGCATGCTGCTCATGCTCTTCATCTTCATCTTCAGCATCCTGGGCATGCACCTTTT TGGTTGCAAGTTCGCATCTGAACGGGATGGGGACACGTTGCCAGACCGGAAGAATTTTGACTCCCTGCTC TGGGCCATTGTCACTGTCTTTCAGATTCTGACTCAGGAAGACTGGAATAAAGTCCTTTACAACGGCATGG CCTCCACGTCATCTTGGGCTGCTCTTTACTTCATCGCCCTCATGACTTTTGGCAACTACGTGCTCTTTAA CCTGCTTGTCGCCATTCTCGTGGAGGGTTTCCAGGCAGAGGAAATCGGCAAACGGGAAGATACGAGTGGA CAGTTAAGCTGTATTCAGCTGCCTGTCAACTCCCAGGGGGGAGATGCCACCAAGTCTGAGTCAGAGCCTG ATTTCTTTTCGCCCAGTGTGGATGGTGATGGGGACAGGAAGAAGCGCTTGGCCCTGGTGGCCTTGGGAGA ACACTCGGAACTACGAAAGAGCCTTTTGCCACCTCTCATCATCCACACAGCTGCTACACCGATGTCACTG CCCAAGAGCTCCAGCACAGGTGTGGGGGAAGCACTGGGCTCTGGCTCTCGCCGCACCAGTAGCAGTGGGT CCGCTGAGCCTGGAACTGCCCATCATGAGATGAAATCACCGCCAAGTGCCCGAAGCTCCCCGCACAGTCC CTGGAGCGCAGCAAGCAGCTGGACCAGCAGGCGCTCCAGCCGGAACAGCCTGGGCCGGGCCCCCAGCCTG AAGCGTAGGAGCCCAAGCGGGGAGCGGAGGTCCCTGCTGTCTGGAGAGGGTCAGGAGAGCCAGGATGAGG AGGAGAGTTCAGAAGAGGACCGGGCCAGCCCAGCAGGCAGTGATCATCGCCACAGGGGTTCCTTGGAACG TGAGGCCAAGAGTTCCTTTGACCTGCCTGACACCCTGCAGGTGCCCGGGCTTCATCGAACAGCCAGCGGT CGGAGCTCTGCCTCTGAACACCAAGACTGTAATGGCAAGTCGGCTTCAGGGCGTTTGGCCCGCACCCTGC GGGCTGATGACCCCCCACTGGATGGGGATGATGGCGATGATGAGGGCAACCTGAGCAAAGGGGAACGCTT ACGAGCCTGGGTCCGAGCCCGGCTCCCTGCCTGTTGCCGAGAGCGAGATTCCTGGTCTGCCTATATCTTC CCTCCCCAGTCAAGGTTTCGTCTCCTGTGTCACCGGATCATCACCCACAAGATGTTTGACCATGTGGTCC TCGTCATCATCTTCCTCAACTGTATCACCATCGCTATGGAGCGCCCCAAAATTGACCCCCACAGCGCTGA ACGCATCTTCCTGACCCTCTCCAACTACATCTTCACGGCAGTCTTCCTGGCTGAAATGACAGTGAAGGTG GTGGCACTGGGCTGGTGCTTTGGGGAGCAGGCCTACCTGCGCAGCAGCTGGAACGTGCTGGACGGCTTGC TGGTGCTCATCTCTGTCATCGACATCCTGGTGTCCATGGTCTCTGACAGCGGCACCAAGATTCTCGGCAT GCTGAGGGTGCTGCGGCTGCTGCGGACCCTACGTCCACTCAGGGTCATCAGCCGGGCCCAGGGGCTGAAG CTGGTGGTAGAGACTCTGATGTCATCCCTCAAACCCATTGGCAACATTGTGGTCATCTGCTGTGCCTTCT TCATCATTTTTGGAATTCTTGGGGTGCAGCTCTTCAAAGGGAAGTTCTTCGTGTGTCAGGGTGAGGACAC CAGGAACATCACTAACAAGTCCGACTGTGCTGAGGCCAGTTACCGGTGGGTCCGGCACAAGTACAACTTT GACAACCTGGGCCAGGCTCTGATGTCCCTGTTTGTGCTGGCCTCCAAGGATGGCTGGGTTGACATCATGT ATGATGGACTGGATGCTGTGGGAGTGGACCAGCAGCCCATCATGAACCACAACCCTTGGATGCTGCTCTA CTTCATCTCCTTCCTCCTCATCGTGGCCTTCTTCGTCCTGAACATGTTTGTGGGCGTGGTGGTGGAGAAC TTCCATAAGTGCAGGCAGCACCAGGAGGAGGAGGAGGCGCGGCGGCGGGAGGAGAAGCGACTAAAGAGGC TGGAGAAAAAGAGAAGGAGTAAGGAGAAGCAGATGGCCGATCTAATGTTGGACGATGTAATTGCTTCCGG CAGCTCAGCCAGCGCTGCGTCAGAAGCCCAGTGCAAACCCTACTACTCTGACTACTCGCGCTTCCGGCTC CTCGTCCACCACCTGTGTACCAGCCACTACCTGGACCTCTTCATCACTGGTGTCATCGGGCTGAATGTGG TCACGATGGCCATGGAACATTACCAGCAGCCCCAGATCCTGGACGAGGCTCTGAAGATCTGCAACTACAT CTTTACCGTCATCTTTGTCTTGGAGTCAGTATTCAAACTTGTGGCCTTCGGCTTCCGCCGGTTCTTCCAG GACAGGTGGAACCAGCTGGACCTGGCTATTGTGCTTCTGTCCATCATGGGCATCACGCTGGAAGAGATTG AGGTCAATGCTTCACTGCCCATCAACCCCACCATCATCCGTATCATGAGGGTGCTCCGCATTGCTCGAGT TCTGAAGCTGTTGAAGATGGCTGTGGGCATGCGGGCACTGCTGGACACGGTGATGCAGGCCCTGCCCCAG GTGGGGAACCTGGGACTTCTCTTCATGCTATTATTTTTCATCTTTGCAGCTCTGGGCGTGGAGCTCTTTG GAGACCTGGAGTGTGATGAGACACACCCTTGTGAGGGCTTGGGCCGGCATGCCACCTTTAGGAACTTTGG TATGGCCTTTCTGACCCTCTTCCGAGTCTCCACTGGTGACAACTGGAATGGTATTATGAAGGACACCCTC CGGGACTGTGACCAGGAGTCCACCTGCTACAACACCGTCATCTCACCCATCTACTTCGTGTCCTTCGTGC TGACGGCCCAGTTTGTGCTGGTCAACGTGGTCATAGCCGTGCTGATGAAGCACCTGGAAGAGAGCAACAA AGAGGCCAAGGAGGAGGCGGAGTTGGAGGCGGAGCTGGAGCTAGAGATGAAGACACTCAGCCCGCAGCCC CACTCCCCGCTGGGCAGCCCCTTCCTCTGGCCTGGGGTGGAAGGTGTCAATAGCCCTGACAGCCCTAAGC CTGGGGCTCCACACACCACGGCCCACATTGGAGCAGCCTCTTCAGGCTTCTCCCTTGAGCACCCCACGAT GGTACCTCACACTGAGGAGGGGCCAGTCCCCCTAGGACCAGACCTGCTGACTGTGAGGAAGTCTGGTGTC AGCCGGACACACTCTCTGCCCAATGACAGCTACATGTGCCGCAATGGGAGCACTGCCGAGAGATCCCTAG GACACAGGGGCTGGGGGCTCCCCAAAGCCCAGTCAGGCTCCATCTTGTCTGTTCACTCCCAACCAGCAGA CACCAGCTGCATCCTACAGCTTCCCAAAGATGCACACTATCTGCTCCAGCCTCATGGGGCTCCCACCTGG GGCGCCATCCCTAAACTACCCCCACCTGGCCGCTCCCCTCTGGCTCAGAGGCCTCTCAGGCGCCAGGCAG CAATAAGGACTGACTCCCTGGACGTGCAGGGCCTGGGTAGCCGGGAAGACCTGTTGTCAGAGGTGAGTGG GCCCTCCTGCCCTCTGACCCGCTCCTCATCCTTCTGGGGCGGGTCGAGCATCCAGGTGCAGCAGCGCTCC GGCAGCCAGAGCAAAGTCTCCAAGCACATCCGCCTGCCAGCCCCTTGCCCAGGCCTGGAACCCAGCTGGG CCAAGGACCCTCAAGAGACCAGAAGCAGCTTAGAGCTGGACACGGAGCTGAGCTGGATTTCAGGAGACCT CCTGCCCAGCAGTCAGGAAGAACCCCTGTCCCCACGGGACTTGAAAAAATGCTACAGTGTAGAGGCCCAG AGCTGCCGGCGCAGGCCTGGGTCCTGGCTAGACGAACAGAGGAGACACTCCATCGCTGTCAGCTGCCTGG ACAGCGGCTCCCAGCCCCGCCTATGTCCAAGCCCCTCAAGCCTCGGGGGCCAACCTCTTGGGGGCCCTGG GAGCCGGCCTAAGAAAAAACTCAGCCCACCCAGTATCTCTATAGACCCCCCGGAGAGCCAGGGCCCTCGG CCCCCATGCAGTCCTGGCGTCTGCCTCAGGAGGAGGGCGCCGGCCAGTGACTCGAAGGATCCCTCGGCCT CCAGCCCCCTTGACAGCACGGCTGCCTCACCCTCCCCAAAGAAAGATGCGCTGAGTCTCTCTGGTTTGTC TTCTGACCCAACAGACCTGGATCCC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA Protein Sequence >MR227520 representing NM_009783 Red=Cloning site Green=Tags(s) MDEEEDGAGAEESGQPRSFTQLNDLSGAGGRQGPGSTEKDPGSADSEAEGLPYPALAPVVFFYLSQDSRP RSWCLRTVCNPWFERVSMLVILLNCVTLGMFRPCEDIACDSQRCRILQAFDDFIFAFFAVEMVVKMVALG IFGKKCYLGDTWNRLDFFIVIAGMLEYSLDLQNVSFSAVRTVRVLRPLRAINRVPSMRILVTLLLDTLPM LGNVLLLCFFVFFIFGIVGVQLWAGLLRNRCFLPENFSLPLSVDLEPYYQTENEDESPFICSQPRENGMR SCRSVPTLRGEGGGGPPCGLDYEAYNSSSNTTCVNWNQYYTNCSAGEHNPFKGAINFDNIGYAWIAIFQV ITLEGWVDIMYFVMDAHSFYNFIYFILLIIVGSFFMINLCLVVIATQFSETKQRESQLMREQRVRFLSNA STLASFSEPGSCYEELLKYLVYILRKAARRLAQVSRAVGVRAGLLSSPVARGGQEPQPSGSCSRSHRRLS VHHLVHHHHHHHHHYHLGNGTLRVPRASPEIQDRDANGSRWLMLPPPSTPTPSGGPPRGAESVHSFYHAD CHLEPVRCQAPPPRSPSEASGRTVGSGKVYPTVHTSPPPEMLKDKALVEVAPSPGPPTLTSFNIPPGPFS SMHKLLETQSTGACHSSCKISSPCSKADSGACGPDSCPYCARTGAGEPESADHEMPDSDSEAVYEFTQDA QHSDLRDPHRRRRPSLGPDAEPSSVLAFWRLICDTFRKIVDSKYFGRGIMIAILVNTLSMGIEYHEQPEE LTNALEISNIVFTSLFALEMLLKLLVYGPFGYIKNPYNIFDGVIVVISVWEIVGQQGGGLSVLRTFRLMR VLKLVRFLPALQRQLVVLMKTMDNVATFCMLLMLFIFIFSILGMHLFGCKFASERDGDTLPDRKNFDSLL WAIVTVFQILTQEDWNKVLYNGMASTSSWAALYFIALMTFGNYVLFNLLVAILVEGFQAEEIGKREDTSG QLSCIQLPVNSQGGDATKSESEPDFFSPSVDGDGDRKKRLALVALGEHSELRKSLLPPLIIHTAATPMSL PKSSSTGVGEALGSGSRRTSSSGSAEPGTAHHEMKSPPSARSSPHSPWSAASSWTSRRSSRNSLGRAPSL KRRSPSGERRSLLSGEGQESQDEEESSEEDRASPAGSDHRHRGSLEREAKSSFDLPDTLQVPGLHRTASG RSSASEHQDCNGKSASGRLARTLRADDPPLDGDDGDDEGNLSKGERLRAWVRARLPACCRERDSWSAYIF PPQSRFRLLCHRIITHKMFDHVVLVIIFLNCITIAMERPKIDPHSAERIFLTLSNYIFTAVFLAEMTVKV VALGWCFGEQAYLRSSWNVLDGLLVLISVIDILVSMVSDSGTKILGMLRVLRLLRTLRPLRVISRAQGLK LVVETLMSSLKPIGNIVVICCAFFIIFGILGVQLFKGKFFVCQGEDTRNITNKSDCAEASYRWVRHKYNF DNLGQALMSLFVLASKDGWVDIMYDGLDAVGVDQQPIMNHNPWMLLYFISFLLIVAFFVLNMFVGVVVEN FHKCRQHQEEEEARRREEKRLKRLEKKRRSKEKQMADLMLDDVIASGSSASAASEAQCKPYYSDYSRFRL LVHHLCTSHYLDLFITGVIGLNVVTMAMEHYQQPQILDEALKICNYIFTVIFVLESVFKLVAFGFRRFFQ DRWNQLDLAIVLLSIMGITLEEIEVNASLPINPTIIRIMRVLRIARVLKLLKMAVGMRALLDTVMQALPQ VGNLGLLFMLLFFIFAALGVELFGDLECDETHPCEGLGRHATFRNFGMAFLTLFRVSTGDNWNGIMKDTL RDCDQESTCYNTVISPIYFVSFVLTAQFVLVNVVIAVLMKHLEESNKEAKEEAELEAELELEMKTLSPQP HSPLGSPFLWPGVEGVNSPDSPKPGAPHTTAHIGAASSGFSLEHPTMVPHTEEGPVPLGPDLLTVRKSGV SRTHSLPNDSYMCRNGSTAERSLGHRGWGLPKAQSGSILSVHSQPADTSCILQLPKDAHYLLQPHGAPTW GAIPKLPPPGRSPLAQRPLRRQAAIRTDSLDVQGLGSREDLLSEVSGPSCPLTRSSSFWGGSSIQVQQRS GSQSKVSKHIRLPAPCPGLEPSWAKDPQETRSSLELDTELSWISGDLLPSSQEEPLSPRDLKKCYSVEAQ SCRRRPGSWLDEQRRHSIAVSCLDSGSQPRLCPSPSSLGGQPLGGPGSRPKKKLSPPSISIDPPESQGPR PPCSPGVCLRRRAPASDSKDPSASSPLDSTAASPSPKKDALSLSGLSSDPTDLDP TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Chromatograms	Chromatograms Sequencher program is needed, download here
Restriction Sites	SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN	NM_009783
ORF Size	6885 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.
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 Method	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.
Shipping	Ambient
Reference Data
RefSeq	NM_009783.3, NP_033913.2
RefSeq Size	8238 bp
RefSeq ORF	6888 bp
Locus ID	12291
Cytogenetics	11 D
MW	253.9 kDa

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Product Manuals
TrueORFs: Open Reading Frame Clones - 10 ug in PrecisionShuttle Vector System TrueClones: Full length cDNA clones (Human/Mouse/Rat), expressing native proteins pLenti-ORF destination vector Transfection - TurboFectin 8.0 Transfection Reagent Plasmid Preparation - PowerPrep Plasmid Purification Kits
FAQs
TrueORF Clones/PrecisionShuttle Organelle Marker Transfection Reagent
SDS
SDS for MR227520

Resources

cDNA Clone Resources
Video Tutorial: Clone Selection Guide Product Video: What is TrueORF GOLD and why it is the most popular type of clone Video Tutorial: How to make Lentivirus particles Video Tutorial: Is the Lentivirus Safe Product Brochure: cDNA clones Protocol: Lentivirus packaging Product Sheet: AAV AAV Biosafety Lentivirus and AAV FAQ Virus-Mediated Gene Delivery

"NM_009783" in other vectors (2)

SKU	Description	Size	Price
MC225260	Cacna1g (untagged) - Mouse calcium channel, voltage-dependent, T type, alpha 1G subunit (Cacna1g), transcript variant 1, (10ug)	10 ug	$2,084.00
MG227520	Cacna1g (tGFP-tagged) - Mouse calcium channel voltage-dependent T type alpha 1G subunit (Cacna1g) transcript variant 1, (10ug)	10 ug	$2,094.00

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Cacna1g (NM_009783) Mouse Tagged ORF Clone

Plasmid Map for MR227520

Download sequence for

Cloning scheme for MR227520

Circular map for MR227520

Citations

ELISA Center

Other Tools

Services

Hot Topics

Car T-cell

Oncology

Signal Transduction

Virus

Technology

Who we are

Company News

Careers

Cacna1g (NM_009783) Mouse Tagged ORF Clone

Other products for "Cacna1g"

Frequently Bought Together (5)

Plasmid Map for MR227520

Download sequence for

Cloning scheme for MR227520

Circular map for MR227520

Citations