CaV1.3 (CACNA1D) (NM_001128840) Human Tagged ORF Clone

CAT＃: RG226473

TrueORF^®

CACNA1D (tGFP-tagged) - Human calcium channel, voltage-dependent, L type, alpha 1D subunit (CACNA1D), transcript variant 2

ORF Plasmid: DDK tGFP

Datasheet

SDS

Plasmid Map

"NM_001128840" in other vectors (2)

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CNY 20,900.00

货期*

12周

规格

Product images

经常一起买 (5)

PS100010

pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug

CNY 6,080.00

TA150041

Mouse monoclonal turboGFP antibody, clone OTI2H8

CNY 1,000.00

【特别福利】购一抗正装产品，免费领10ul抗体试用装

CC100003

DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)

CNY 1,280.00

PRIMER

Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each

CNY 480.00

TA351020

Rabbit Polyclonal Anti-CACNA1D Antibody

CNY 1,999.00
CNY 3,280.00

Specifications

Product Data
Type	Human Tagged ORF Clone
Tag	TurboGFP
Synonyms	CACH3; CACN4; CACNL1A2; Cav1.3; CCHL1A2; PASNA; SANDD
Vector	pCMV6-AC-GFP
E. coli Selection	Ampicillin (100 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	ORF Nucleotide Sequence (showhide) >RG226473 representing NM_001128840 Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGG CAAACTATGCAAGAGGCACCAGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAA GCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCTAGACAGGCCAAGGCTGCCCAAACTATGAGC ACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAGAGCAAAAAAC AGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAG AGCCTGCATTAGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGT GTGGCCTTAGCTATTTACATCCCATTCCCTGAAGATGATTCTAATTCAACAAATCATAACTTGGAAAAAG TAGAATATGCCTTCCTGATTATTTTTACAGTCGAGACATTTTTGAAGATTATAGCGTATGGATTATTGCT ACATCCTAATGCTTATGTTAGGAATGGATGGAATTTACTGGATTTTGTTATAGTAATAGTAGGATTGTTT AGTGTAATTTTGGAACAATTAACCAAAGAAACAGAAGGCGGGAACCACTCAAGCGGCAAATCTGGAGGCT TTGATGTCAAAGCCCTCCGTGCCTTTCGAGTGTTGCGACCACTTCGACTAGTGTCAGGAGTGCCCAGTTT ACAAGTTGTCCTGAACTCCATTATAAAAGCCATGGTTCCCCTCCTTCACATAGCCCTTTTGGTATTATTT GTAATCATAATCTATGCTATTATAGGATTGGAACTTTTTATTGGAAAAATGCACAAAACATGTTTTTTTG CTGACTCAGATATCGTAGCTGAAGAGGACCCAGCTCCATGTGCGTTCTCAGGGAATGGACGCCAGTGTAC TGCCAATGGCACGGAATGTAGGAGTGGCTGGGTTGGCCCGAACGGAGGCATCACCAACTTTGATAACTTT GCCTTTGCCATGCTTACTGTGTTTCAGTGCATCACCATGGAGGGCTGGACAGATGTGCTCTACTGGATGA ATGATGCTATGGGATTTGAATTGCCCTGGGTGTATTTTGTCAGTCTCGTCATCTTTGGGTCATTTTTCGT ACTAAATCTTGTACTTGGTGTATTGAGCGGAGAATTCTCAAAGGAAAGAGAGAAGGCAAAAGCACGGGGA GATTTCCAGAAGCTCCGGGAGAAGCAGCAGCTGGAGGAGGATCTAAAGGGCTACTTGGATTGGATCACCC AAGCTGAGGACATCGATCCGGAGAATGAGGAAGAAGGAGGAGAGGAAGGCAAACGAAATACTAGCATGCC CACCAGCGAGACTGAGTCTGTGAACACAGAGAACGTCAGCGGTGAAGGCGAGAACCGAGGCTGCTGTGGA AGTCTCTGTCAAGCCATCTCAAAATCCAAACTCAGCCGACGCTGGCGTCGCTGGAACCGATTCAATCGCA GAAGATGTAGGGCCGCCGTGAAGTCTGTCACGTTTTACTGGCTGGTTATCGTCCTGGTGTTTCTGAACAC CTTAACCATTTCCTCTGAGCACTACAATCAGCCAGATTGGTTGACACAGATTCAAGATATTGCCAACAAA GTCCTCTTGGCTCTGTTCACCTGCGAGATGCTGGTAAAAATGTACAGCTTGGGCCTCCAAGCATATTTCG TCTCTCTTTTCAACCGGTTTGATTGCTTCGTGGTGTGTGGTGGAATCACTGAGACGATCTTGGTGGAACT GGAAATCATGTCTCCCCTGGGGATCTCTGTGTTTCGGTGTGTGCGCCTCTTAAGAATCTTCAAAGTGACC AGGCACTGGACTTCCCTGAGCAACTTAGTGGCATCCTTATTAAACTCCATGAAGTCCATCGCTTCGCTGT TGCTTCTGCTTTTTCTCTTCATTATCATCTTTTCCTTGCTTGGGATGCAGCTGTTTGGCGGCAAGTTTAA TTTTGATGAAACGCAAACCAAGCGGAGCACCTTTGACAATTTCCCTCAAGCACTTCTCACAGTGTTCCAG ATCCTGACAGGCGAAGACTGGAATGCTGTGATGTACGATGGCATCATGGCTTACGGGGGCCCATCCTCTT CAGGAATGATCGTCTGCATCTACTTCATCATCCTCTTCATTTGTGGTAACTATATTCTACTGAATGTCTT CTTGGCCATCGCTGTAGACAATTTGGCTGATGCTGAAAGTCTGAACACTGCTCAGAAAGAAGAAGCGGAA GAAAAGGAGAGGAAAAAGATTGCCAGAAAAGAGAGCCTAGAAAATAAAAAGAACAACAAACCAGAAGTCA ACCAGATAGCCAACAGTGACAACAAGGTTACAATTGATGACTATAGAGAAGAGGATGAAGACAAGGACCC CTATCCGCCTTGCGATGTGCCAGTAGGGGAAGAGGAAGAGGAAGAGGAGGAGGATGAACCTGAGGTTCCT GCCGGACCCCGTCCTCGAAGGATCTCGGAGTTGAACATGAAGGAAAAAATTGCCCCCATCCCTGAAGGGA GCGCTTTCTTCATTCTTAGCAAGACCAACCCGATCCGCGTAGGCTGCCACAAGCTCATCAACCACCACAT CTTCACCAACCTCATCCTTGTCTTCATCATGCTGAGCAGCGCTGCCCTGGCCGCAGAGGACCCCATCCGC AGCCACTCCTTCCGGAACACGATACTGGGTTACTTTGACTATGCCTTCACAGCCATCTTTACTGTTGAGA TCCTGTTGAAGATGACAACTTTTGGAGCTTTCCTCCACAAAGGGGCCTTCTGCAGGAACTACTTCAATTT GCTGGATATGCTGGTGGTTGGGGTGTCTCTGGTGTCATTTGGGATTCAATCCAGTGCCATCTCCGTTGTG AAGATTCTGAGGGTCTTAAGGGTCCTGCGTCCCCTCAGGGCCATCAACAGAGCAAAAGGACTTAAGCACG TGGTCCAGTGCGTCTTCGTGGCCATCCGGACCATCGGCAACATCATGATCGTCACCACCCTCCTGCAGTT CATGTTTGCCTGTATCGGGGTCCAGTTGTTCAAGGGGAAGTTCTATCGCTGTACGGATGAAGCCAAAAGT AACCCTGAAGAATGCAGGGGACTTTTCATCCTCTACAAGGATGGGGATGTTGACAGTCCTGTGGTCCGTG AACGGATCTGGCAAAACAGTGATTTCAACTTCGACAACGTCCTCTCTGCTATGATGGCGCTCTTCACAGT CTCCACGTTTGAGGGCTGGCCTGCGTTGCTGTATAAAGCCATCGACTCGAATGGAGAGAACATCGGCCCA ATCTACAACCACCGCGTGGAGATCTCCATCTTCTTCATCATCTACATCATCATTGTAGCTTTCTTCATGA TGAACATCTTTGTGGGCTTTGTCATCGTTACATTTCAGGAACAAGGAGAAAAAGAGTATAAGAACTGTGA GCTGGACAAAAATCAGCGTCAGTGTGTTGAATACGCCTTGAAAGCACGTCCCTTGCGGAGATACATCCCC AAAAACCCCTACCAGTACAAGTTCTGGTACGTGGTGAACTCTTCGCCTTTCGAATACATGATGTTTGTCC TCATCATGCTCAACACACTCTGCTTGGCCATGCAGCACTACGAGCAGTCCAAGATGTTCAATGATGCCAT GGACATTCTGAACATGGTCTTCACCGGGGTGTTCACCGTCGAGATGGTTTTGAAAGTCATCGCATTTAAG CCTAAGGGGTATTTTAGTGACGCCTGGAACACGTTTGACTCCCTCATCGTAATCGGCAGCATTATAGACG TGGCCCTCAGCGAAGCAGACCCAACTGAAAGTGAAAATGTCCCTGTCCCAACTGCTACACCTGGGAACTC TGAAGAGAGCAATAGAATCTCCATCACCTTTTTCCGTCTTTTCCGAGTGATGCGATTGGTGAAGCTTCTC AGCAGGGGGGAAGGCATCCGGACATTGCTGTGGACTTTTATTAAGTCCTTTCAGGCGCTCCCGTATGTGG CCCTCCTCATAGCCATGCTGTTCTTCATCTATGCGGTCATTGGCATGCAGATGTTTGGGAAAGTTGCCAT GAGAGATAACAACCAGATCAATAGGAACAATAACTTCCAGACGTTTCCCCAGGCGGTGCTGCTGCTCTTC AGGTGTGCAACAGGTGAGGCCTGGCAGGAGATCATGCTGGCCTGTCTCCCAGGGAAGCTCTGTGACCCTG AGTCAGATTACAACCCCGGGGAGGAGTATACATGTGGGAGCAACTTTGCCATTGTCTATTTCATCAGTTT TTACATGCTCTGTGCATTTCTGATCATCAATCTGTTTGTGGCTGTCATCATGGATAATTTCGACTATCTG ACCCGGGACTGGTCTATTTTGGGGCCTCACCATTTAGATGAATTCAAAAGAATATGGTCAGAATATGACC CTGAGGCAAAGGGAAGGATAAAACACCTTGATGTGGTCACTCTGCTTCGACGCATCCAGCCTCCCCTGGG GTTTGGGAAGTTATGTCCACACAGGGTAGCGTGCAAGAGATTAGTTGCCATGAACATGCCTCTCAACAGT GACGGGACAGTCATGTTTAATGCAACCCTGTTTGCTTTGGTTCGAACGGCTCTTAAGATCAAGACCGAAG GGAACCTGGAGCAAGCTAATGAAGAACTTCGGGCTGTGATAAAGAAAATTTGGAAGAAAACCAGCATGAA ATTACTTGACCAAGTTGTCCCTCCAGCTGGTGATGATGAGGTAACCGTGGGGAAGTTCTATGCCACTTTC CTGATACAGGACTACTTTAGGAAATTCAAGAAACGGAAAGAACAAGGACTGGTGGGAAAGTACCCTGCGA AGAACACCACAATTGCCCTACAGGCGGGATTAAGGACACTGCATGACATTGGGCCAGAAATCCGGCGTGC TATATCGTGTGATTTGCAAGATGACGAGCCTGAGGAAACAAAACGAGAAGAAGAAGATGATGTGTTCAAA AGAAATGGTGCCCTGCTTGGAAACCATGTCAATCATGTTAATAGTGATAGGAGAGATTCCCTTCAGCAGA CCAATACCACCCACCGTCCCCTGCATGTCCAAAGGCCTTCAATTCCACCTGCAAGTGATACTGAGAAACC GCTGTTTCCTCCAGCAGGAAATTCGGTGTGTCATAACCATCATAACCATAATTCCATAGGAAAGCAAGTT CCCACCTCAACAAATGCCAATCTCAATAATGCCAATATGTCCAAAGCTGCCCATGGAAAGCGGCCCAGCA TTGGGAACCTTGAGCATGTGTCTGAAAATGGGCATCATTCTTCCCACAAGCATGACCGGGAGCCTCAGAG AAGGTCCAGTGTGAAAAGAACCCGCTATTATGAAACTTACATTAGGTCCGACTCAGGAGATGAACAGCTC CCAACTATTTGCCGGGAAGACCCAGAGATACATGGCTATTTCAGGGACCCCCACTGCTTGGGGGAGCAGG AGTATTTCAGTAGTGAGGAATGCTACGAGGATGACAGCTCGCCCACCTGGAGCAGGCAAAACTATGGCTA CTACAGCAGATACCCAGGCAGAAACATCGACTCTGAGAGGCCCCGAGGCTACCATCATCCCCAAGGATTC TTGGAGGACGATGACTCGCCCGTTTGCTATGATTCACGGAGATCTCCAAGGAGACGCCTACTACCTCCCA CCCCAGCATCCCACCGGAGATCCTCCTTCAACTTTGAGTGCCTGCGCCGGCAGAGCAGCCAGGAAGAGGT CCCGTCGTCTCCCATCTTCCCCCATCGCACGGCCCTGCCTCTGCATCTAATGCAGCAACAGATCATGGCA GTTGCCGGCCTAGATTCAAGTAAAGCCCAGAAGTACTCACCGAGTCACTCGACCCGGTCGTGGGCCACCC CTCCAGCAACCCCTCCCTACCGGGACTGGACACCGTGCTACACCCCCCTGATCCAAGTGGAGCAGTCAGA GGCCCTGGACCAGGTGAACGGCAGCCTGCCGTCCCTGCACCGCAGCTCCTGGTACACAGACGAGCCCGAC ATCTCCTACCGGACTTTCACACCAGCCAGCCTGACTGTCCCCAGCAGCTTCCGGAACAAAAACAGCGACA AGCAGAGGAGTGCGGACAGCTTGGTGGAGGCAGTCCTGATATCCGAAGGCTTGGGACGCTATGCAAGGGA CCCAAAATTTGTGTCAGCAACAAAACACGAAATCGCTGATGCCTGTGACCTCACCATCGACGAGATGGAG AGTGCAGCCAGCACCCTGCTTAATGGGAACGTGCGTCCCCGAGCCAACGGGGATGTGGGCCCCCTCTCAC ACCGGCAGGACTATGAGCTACAGGACTTTGGTCCTGGCTACAGCGACGAAGAGCCAGACCCTGGGAGGGA TGAGGAGGACCTGGCGGATGAAATGATATGCATCACCACCTTG ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA Protein Sequence (showhide) >RG226473 representing NM_001128840 Red=Cloning site Green=Tags(s) MMMMMMMKKMQHQRQQQADHANEANYARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMS TSAPPPVGSLSQRKRQQYAKSKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANC VALAIYIPFPEDDSNSTNHNLEKVEYAFLIIFTVETFLKIIAYGLLLHPNAYVRNGWNLLDFVIVIVGLF SVILEQLTKETEGGNHSSGKSGGFDVKALRAFRVLRPLRLVSGVPSLQVVLNSIIKAMVPLLHIALLVLF VIIIYAIIGLELFIGKMHKTCFFADSDIVAEEDPAPCAFSGNGRQCTANGTECRSGWVGPNGGITNFDNF AFAMLTVFQCITMEGWTDVLYWMNDAMGFELPWVYFVSLVIFGSFFVLNLVLGVLSGEFSKEREKAKARG DFQKLREKQQLEEDLKGYLDWITQAEDIDPENEEEGGEEGKRNTSMPTSETESVNTENVSGEGENRGCCG SLCQAISKSKLSRRWRRWNRFNRRRCRAAVKSVTFYWLVIVLVFLNTLTISSEHYNQPDWLTQIQDIANK VLLALFTCEMLVKMYSLGLQAYFVSLFNRFDCFVVCGGITETILVELEIMSPLGISVFRCVRLLRIFKVT RHWTSLSNLVASLLNSMKSIASLLLLLFLFIIIFSLLGMQLFGGKFNFDETQTKRSTFDNFPQALLTVFQ ILTGEDWNAVMYDGIMAYGGPSSSGMIVCIYFIILFICGNYILLNVFLAIAVDNLADAESLNTAQKEEAE EKERKKIARKESLENKKNNKPEVNQIANSDNKVTIDDYREEDEDKDPYPPCDVPVGEEEEEEEEDEPEVP AGPRPRRISELNMKEKIAPIPEGSAFFILSKTNPIRVGCHKLINHHIFTNLILVFIMLSSAALAAEDPIR SHSFRNTILGYFDYAFTAIFTVEILLKMTTFGAFLHKGAFCRNYFNLLDMLVVGVSLVSFGIQSSAISVV KILRVLRVLRPLRAINRAKGLKHVVQCVFVAIRTIGNIMIVTTLLQFMFACIGVQLFKGKFYRCTDEAKS NPEECRGLFILYKDGDVDSPVVRERIWQNSDFNFDNVLSAMMALFTVSTFEGWPALLYKAIDSNGENIGP IYNHRVEISIFFIIYIIIVAFFMMNIFVGFVIVTFQEQGEKEYKNCELDKNQRQCVEYALKARPLRRYIP KNPYQYKFWYVVNSSPFEYMMFVLIMLNTLCLAMQHYEQSKMFNDAMDILNMVFTGVFTVEMVLKVIAFK PKGYFSDAWNTFDSLIVIGSIIDVALSEADPTESENVPVPTATPGNSEESNRISITFFRLFRVMRLVKLL SRGEGIRTLLWTFIKSFQALPYVALLIAMLFFIYAVIGMQMFGKVAMRDNNQINRNNNFQTFPQAVLLLF RCATGEAWQEIMLACLPGKLCDPESDYNPGEEYTCGSNFAIVYFISFYMLCAFLIINLFVAVIMDNFDYL TRDWSILGPHHLDEFKRIWSEYDPEAKGRIKHLDVVTLLRRIQPPLGFGKLCPHRVACKRLVAMNMPLNS DGTVMFNATLFALVRTALKIKTEGNLEQANEELRAVIKKIWKKTSMKLLDQVVPPAGDDEVTVGKFYATF LIQDYFRKFKKRKEQGLVGKYPAKNTTIALQAGLRTLHDIGPEIRRAISCDLQDDEPEETKREEEDDVFK RNGALLGNHVNHVNSDRRDSLQQTNTTHRPLHVQRPSIPPASDTEKPLFPPAGNSVCHNHHNHNSIGKQV PTSTNANLNNANMSKAAHGKRPSIGNLEHVSENGHHSSHKHDREPQRRSSVKRTRYYETYIRSDSGDEQL PTICREDPEIHGYFRDPHCLGEQEYFSSEECYEDDSSPTWSRQNYGYYSRYPGRNIDSERPRGYHHPQGF LEDDDSPVCYDSRRSPRRRLLPPTPASHRRSSFNFECLRRQSSQEEVPSSPIFPHRTALPLHLMQQQIMA VAGLDSSKAQKYSPSHSTRSWATPPATPPYRDWTPCYTPLIQVEQSEALDQVNGSLPSLHRSSWYTDEPD ISYRTFTPASLTVPSSFRNKNSDKQRSADSLVEAVLISEGLGRYARDPKFVSATKHEIADACDLTIDEME SAASTLLNGNVRPRANGDVGPLSHRQDYELQDFGPGYSDEEPDPGRDEEDLADEMICITTL TRTRPLE - GFP Tag - V
Restriction Sites	SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN	NM_001128840
ORF Size	6483 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_001128840.3
RefSeq Size	7711 bp
RefSeq ORF	6486 bp
Locus ID	776
UniProt ID	Q01668
Protein Families	Druggable Genome, Ion Channels: Calcium, Transmembrane
Protein Pathways	Alzheimer's disease, Arrhythmogenic right ventricular cardiomyopathy (ARVC), Calcium signaling pathway, Cardiac muscle contraction, Dilated cardiomyopathy, GnRH signaling pathway, Hypertrophic cardiomyopathy (HCM), MAPK signaling pathway, Type II diabetes mellitus, Vascular smooth muscle contraction
Gene Summary	Voltage-dependent calcium channels mediate the entry of calcium ions into excitable cells, and are also involved in a variety of calcium-dependent processes, including muscle contraction, hormone or neurotransmitter release, and gene expression. Calcium channels are multisubunit complexes composed of alpha-1, beta, alpha-2/delta, and gamma subunits. The channel activity is directed by the pore-forming alpha-1 subunit, whereas the others act as auxiliary subunits regulating this activity. The distinctive properties of the calcium channel types are related primarily to the expression of a variety of alpha-1 isoforms, namely alpha-1A, B, C, D, E, and S. This gene encodes the alpha-1D subunit. Several transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Dec 2012]

*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

Documents

Product Manuals
TrueORFs: Open Reading Frame Clones - 10 ug in PrecisionShuttle Vector System 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
TrueORF SDS

Resources

cDNA 克隆相关资源
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 $98 Clones. Download the List of 15,000 Protocol: Lentivirus packaging

Other Versions

SKU	Description	Size	Price
RC226473	CACNA1D (Myc-DDK-tagged)-Human calcium channel, voltage-dependent, L type, alpha 1D subunit (CACNA1D), transcript variant 2	10 ug 产品选项验证失败所有选项都是必需的	CNY 18,990.00
SC323309	CACNA1D (untagged)-Human calcium channel, voltage-dependent, L type, alpha 1D subunit (CACNA1D), transcript variant 2	10 ug 产品选项验证失败所有选项都是必需的	CNY 41,610.00

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