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Sptbn1 (NM_175836) Mouse Tagged ORF Clone

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SKU
MG216353
Sptbn1 (tGFP-tagged) - Mouse spectrin beta 2 (Spnb2) transcript variant 1, (10ug)
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ORF Plasmid:
tGFP DDK
  $2,150.00
3 Weeks*
Bulk Requests & Clone Modifications

Frequently Bought Together (4)

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100 pmol
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PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug
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Other products for "Sptbn1 or NM_175836"

Specifications
Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Sptbn1
Synonyms 9930031C03Rik; AL033301; elf1; elf3; mKIAA4049; Spnb-2; Spnb2; SPTB2
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MG216353 representing NM_175836
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACGACCACGGTAGCCACAGACTATGACAACATTGAGATCCAGCAGCAGTACAGTGATGTGAACAACC
GCTGGGATGTGGATGACTGGGACAATGAGAACAGCTCTGCAAGGCTCTTTGAGCGCTCCCGCATCAAGGC
CCTGGCAGATGAGCGTGAAGCTGTACAGAAGAAGACCTTCACCAAGTGGGTCAATTCCCACCTTGCGAGA
GTGTCCTGCCGAATCACAGACCTGTACACGGACCTTCGAGATGGACGGATGCTCATCAAGCTACTGGAGG
TCCTCTCTGGAGAGAGGCTGCCTAAACCCACTAAGGGACGGATGCGGATCCACTGTCTGGAGAATGTCGA
CAAGGCTCTTCAATTCCTGAAAGAGCAGAGAGTCCATCTTGAGAACATGGGCTCCCATGACATTGTGGAT
GGAAACCACCGGCTGACCCTCGGCCTCATCTGGACAATTATTCTGCGCTTCCAGATCCAGGATATTAGTG
TGGAGACTGAAGATAACAAAGAGAAAAAGTCTGCTAAGGATGCATTGCTGCTGTGGTGCCAGATGAAGAC
AGCTGGGTACCCCAATGTCAACATTCACAATTTCACCACTAGCTGGAGGGATGGCATGGCCTTCAATGCA
CTGATACATAAACATCGGCCTGACCTGATAGATTTTGATAAACTGAAGAAATCTAATGCACACTACAATC
TGCAGAATGCATTTAACCTGGCAGAGCAGCACCTTGGCCTCACTAAACTGTTAGACCCTGAAGATATCAG
TGTGGACCACCCTGATGAGAAGTCTATCATCACATACGTGGTGACTTACTACCACTACTTCTCCAAGATG
AAGGCCTTGGCTGTCGAAGGAAAGCGCATTGGAAAGGTGCTTGATAATGCTATAGAAACAGAGAAAATGA
TTGAGAAGTACGAGTCACTTGCTTCTGACCTTCTGGAGTGGATTGAACAAACCATCATCATCCTAAACAA
CCGCAAATTTGCTAATTCACTGGTTGGGGTCCAGCAGCAGCTCCAGGCATTCAACACGTACCGCACAGTG
GAGAAACCACCTAAGTTTACTGAGAAGGGGAATTTGGAGGTGCTCCTTTTCACAATTCAGAGCAAGATGC
GAGCGAATAATCAGAAGGTCTACATGCCCCGCGAGGGGAAGCTCATCTCTGACATCAACAAGGCCTGGGA
AAGACTGGAAAAAGCAGAACATGAGAGAGAACTGGCTCTGCGGAATGAGCTCATACGGCAGGAAAAACTG
GAACAACTCGCCCGAAGATTTGATCGCAAGGCAGCTATGAGGGAGACATGGCTGAGTGAAAACCAGCGTC
TTGTGTCTCAGGACAACTTTGGATTTGACCTTCCCGCTGTTGAGGCTGCTACCAAAAAACACGAGGCCAT
TGAGACAGACATCGCTGCATATGAAGAACGAGTTCAGGCCGTGGTGGCTGTGGCCAGGGAACTTGAAGCC
GAGAACTACCATGACATCAAGCGCATCACAGCGAGGAAGGACAATGTCATCCGGCTCTGGGAATACTTGC
TGGAACTGCTCAGGGCCAGGAGGCAGCGTCTTGAGATGAACCTGGGATTGCAAAAGATATTCCAGGAAAT
GCTTTATATTATGGACTGGATGGATGAAATGAAGGTGCTATTGCTGTCTCAAGACTATGGCAAACACTTA
CTTGGTGTTGAAGACCTGTTACAGAAGCATGCCCTGGTTGAAGCAGACATTGCAATCCAAGCAGAGCGTG
TAAGAGGTGTGAATGCCTCTGCCCAGAAGTTTGCAACAGATGGGGAAGGCTACAAGCCATGTGACCCCCA
GGTAATTCGAGACCGTGTTGCCCACATGGAGTTCTGCTATCAAGAGCTTTGTCAGCTGGCTGCCGAGCGT
AGGGCTCGCCTGGAAGAGTCCCGTCGCCTCTGGAAGTTCTTCTGGGAGATGGCAGAAGAGGAAGGCTGGA
TACGAGAGAAGGAGAAGATCCTGTCCTCTGATGATTACGGGAAAGACTTGACCAGTGTCATGCGCCTGCT
GAGCAAGCACCGGGCATTTGAGGATGAGATGAGTGGCCGTAGTGGCCATTTTGAGCAGGCCATTAAAGAA
GGTGAAGACATGATTGCAGAGGAACACTTTGGATCGGAAAAGATCCGTGAGAGAATCATTTATATCCGGG
AGCAGTGGGCCAACCTGGAACAGCTCTCAGCCATTAGGAAGAAGCGCCTAGAGGAAGCCTCATTACTGCA
CCAGTTCCAGGCTGATGCTGATGATATTGATGCTTGGATGTTAGATATACTCAAGATTGTCTCCAGCAAT
GATGTGGGCCATGATGAGTACTCCACGCAGTCTCTGGTCAAGAAGCATAAAGATGTAGCAGAAGAGATCA
CCAACTACAGGCCCACTATTGACACACTGCATGAGCAAGCCAGTGCCCTTCCACAAGCACATGCAGAGTC
TCCAGATGTGAAGGGCCGGCTGGCAGGAATTGAGGAGCGCTGCAAGGAGATGGCAGAGTTAACACGGCTA
AGGAAGCAGGCTCTGCAGGACACCCTGGCCCTGTACAAGATGTTCAGTGAGGCTGATGCCTGTGAGCTCT
GGATTGACGAGAAGGAGCAGTGGCTCAACAACATGCAGATCCCAGAGAAGCTGGAGGACCTGGAAGTCAT
CCAGCACAGATTTGAGAGCCTAGAACCAGAAATGAACAACCAGGCTTCCCGGGTTGCTGTGGTGAACCAG
ATTGCACGGCAGCTGATGCACAATGGCCACCCCAGTGAAAAGGAAATCAGAGCTCAGCAAGACAAACTCA
ACACGAGGTGGAGTCAGTTCAGAGAACTGGTGGACAGGAAAAAGGATGCTCTTCTGTCTGCCCTGAGCAT
CCAGAACTACCACCTCGAGTGCAATGAAACCAAATCCTGGATCCGGGAGAAGACCAAGGTCATCGAGTCT
ACCCAAGACCTTGGCAATGACCTGGCAGGTGTCATGGCCCTGCAGCGCAAGCTGACTGGCATGGAACGAG
ACTTGGTAGCCATTGAGGCGAAGCTGAGTGACCTGCAGAAAGAAGCTGAGAAGCTGGAGTCCGAGCACCC
TGACCAGGCTCAAGCTATCCTGTCTCGGCTGGCCGAGATCAGTGATGTGTGGGAGGAAATGAAGACAACC
CTGAAGAACCGAGAGGCCTCCCTGGGAGAGGCCAGCAAGCTGCAGCAGTTTCTGCGGGACTTGGACGACT
TCCAGTCTTGGCTCTCCAGGACCCAGACTGCTATCGCCTCAGAGGACATGCCCAATACCCTCACTGAGGC
AGAGAAGCTTCTCACACAGCACGAGAATATCAAAAATGAGATCGACAATTATGAGGAAGACTACCAGAAG
ATGCGGGACATGGGCGAGATGGTCACCCAGGGGCAGACTGATGCCCAGTATATGTTTCTGCGGCAGCGGC
TGCAGGCCTTAGACACTGGCTGGAATGAGCTCCACAAAATGTGGGAGAACAGGCAAAACCTCCTCTCCCA
GTCCCATGCCTACCAGCAGTTCCTTAGGGACACCAAACAAGCTGAAGCTTTTCTTAATAACCAGGAGTAT
GTTTTGGCTCATACTGAAATGCCCACCACCCTGGAAGGAGCTGAAGCAGCCATTAAAAAGCAGGAGGACT
TCATGACCACCATGGATGCCAACGAGGAGAAGATCAATGCTGTTGTGGAGACTGGCCGAAGACTGGTGAG
CGATGGGAACATCAACTCCGACCGCATCCAGGAGAAGGTGGACTCTATTGACGACAGACACAGGAAGAAT
CGAGAAGCAGCCAGTGAACTTCTGATGAGGTTAAAGGACAACCGTGATCTACAGAAGTTCCTGCAAGATT
GTCAAGAGCTGTCCCTCTGGATCAATGAAAAGATGCTTACAGCTCAAGACATGTCTTATGATGAAGCCAG
AAATCTGCACAGTAAATGGTTAAAGCATCAAGCATTTATGGCGGAACTTGCATCCAACAAAGAATGGCTT
GACAAAATTGAGAAGGAAGGAATGCAGCTTATTTCAGAAAAGCCAGAAACAGAAGCTGTGGTAAAGGAAA
AACTCACTGGTTTACATAAAATGTGGGAAGTCCTTGAATCCACAACCCAGACCAAGGCCCAGCGGCTCTT
TGATGCAAATAAGGCTGAGCTTTTCACACAAAGCTGCGCAGATCTTGACAAATGGCTACATGGCCTGGAG
AGCCAGATTCAATCTGACGACTATGGCAAAGACCTTACCAGTGTCAATATTCTTCTGAAAAAGCAACAGA
TGCTGGAGAATCAGATGGAAGTTCGGAAGAAAGAGATCGAGGAACTGCAGAGCCAAGCCCAGGCGCTGAG
TCAGGAGGGGAAGAGCACAGATGAGGTGGACAGCAAACGCCTTACTGTGCAGACCAAGTTCATGGAGCTT
CTGGAGCCCTTGAGTGAGAGGAAGCATAACCTGTTAGCTTCCAAGGAGATCCATCAGTTCAACAGGGATG
TGGAGGACGAAATCCTATGGGTTGGCGAGAGGATGCCTTTGGCAACTTCCACAGATCATGGCCATAACCT
TCAAACTGTGCAGCTGTTAATAAAGAAAAACCAGACCCTCCAGAAAGAAATCCAGGGACACCAGCCTCGT
ATTGATGACATCTTTGAGAGGAGTCAAAACATCATCACAGATAGCAGCAGCCTCAATGCCGAGGCTATCA
GGCAGAGGCTCGCTGACCTGAAGCAGCTGTGGGGGCTCCTCATTGAGGAAACTGAGAAACGCCATAGACG
GCTGGAGGAGGCACACAAGGCGCAGCAGTACTACTTTGATGCAGCTGAAGCCGAGGCATGGATGAGTGAA
CAGGAGTTGTACATGATGTCTGAGGAAAAGGCCAAGGATGAGCAGAGTGCTGTCTCTATGTTGAAAAAGC
ACCAGATTTTAGAGCAAGCTGTTGAGGACTATGCAGAGACAGTACACCAGCTCTCCAAGACTAGCCGGGC
GCTGGTGGCTGACAGCCATCCCGAAAGTGAGCGTATTAGCATGCGGCAGTCAAAGGTCGACAAGCTGTAT
GCTGGCCTGAAGGACCTTGCTGAGGAGAGGAGAGGAAAACTTGATGAGAGGCACAGGCTGTTCCAGCTCA
ACAGAGAGGTGGATGACCTGGAACAGTGGATCGCTGAGAGGGAAGTGGTCGCAGGCTCCCATGAGTTGGG
ACAGGACTATGAGCATGTCACGATGTTACAAGAACGGTTCCGAGAATTTGCTCGAGACACAGGAAACATT
GGGCAGGAGCGTGTGGATACAGTTAATAACATGGCAGATGAACTCATCAACTCTGGACATTCAGATGCTG
CCACCATTGCTGAGTGGAAAGATGGTCTCAATGAAGCCTGGGCTGACCTCCTGGAGCTCATTGACACAAG
AACACAGATTCTTGCTGCCTCATATGAACTTCATAAGTTTTACCATGATGCCAAGGAGATCTTTGGCCGA
ATCCAGGACAAACACAAGAAACTCCCTGAGGAGCTTGGAAGAGATCAAAACACTGTGGAAACTTTACAGA
GAATGCACACCACCTTTGAGCACGACATCCAAGCTCTGGGCACTCAGGTGAGGCAGCTGCAGGAGGATGC
AGCTCGCCTCCAGGCAGCCTATGCAGGGGACAAGGCTGATGACATCCAGAAGCGTGAGAATGAGGTCCTG
GAAGCCTGGAAGTCCCTGCTGGATGCTTGTGAGGGTCGCAGGGTGCGGCTGGTAGACACAGGAGACAAGT
TCCGCTTCTTCAGCATGGTGCGTGACCTCATGCTCTGGATGGAAGATGTCATCCGGCAGATCGAGGCCCA
GGAGAAACCACGGGATGTGTCATCTGTTGAACTGTTAATGAATAATCATCAAGGTATCAAAGCTGAAATT
GATGCTCGTAATGACAGCTTTACAGCCTGCATTGAGCTTGGGAAATCCCTGCTGGCACGGAAACACTATG
CTTCTGAGGAGATCAAGGAAAAGTTACTGCAGCTGACAGAGAAAAGAAAAGAAATGATTGACAAGTGGGA
AGACCGGTGGGAGTGGTTAAGACTGATTTTGGAGGTCCATCAGTTCTCAAGGGATGCCAGTGTGGCAGAG
GCTTGGCTGCTTGGACAGGAACCATACCTATCCAGCCGTGAAATTGGCCAGAGTGTAGACGAAGTGGAGA
AGCTTATTAAGCGCCATGAGGCGTTTGAAAAGTCTGCAGCGACCTGGGATGAGAGATTCTCTGCTCTGGA
AAGGCTGACAACGTTGGAGCTACTGGAAGTGCGCAGACAGCAAGAGGAAGAAGAAAGAAAGAGGCGGCCA
CCTTCTCCGGACCCAAACACGAAGGTTTCAGAGGAGGCTGAGTCCCAGCAATGGGATACTTCAAAAGGAG
ACCAAGTTTCCCAGAATGGTTTGCCGGCTGAGCAGGGATCTCCACGGATGGCAGGAACCATGGAAACGAG
TGAAATGGTCAACGGTGCTGCTGAGCAGAGGACAAGCTCCAAAGAGTCCAGTCCTGTTCCCTCTCCCACC
TTGGACCGAAAGGCCAAATCTGCACTTCCAGCCCAGAGTGCTGCCACCCTGCCAGCCAGGACCCTGGAGA
CACCCGCTGCCCAGATGGAAGGCTTCCTCAATCGGAAGCATGAGTGGGAGGCCCACAATAAGAAAGCCTC
GAGCAGGTCCTGGCACAATGTATATTGTGTCATAAATAACCAAGAAATGGGCTTCTATAAAGATGCCAAG
AGTGCTGCTTCTGGCATCCCCTACCACAGTGAGGTCCCTGTGAGTTTGAAAGAGGCCATCTGCGAAGTGG
CCCTTGATTACAAAAAGAAGAAGCACGTGTTCAAGCTAAGACTAAGTGATGGAAACGAGTACCTCTTCCA
AGCCAAAGATGATGAGGAAATGAACACATGGATCCAGGCTATCTCCTCTGCCATCTCCTCTGACAAACAC
GACACATCTGCCAGCACCCAGAGTACGCCAGCATCCAGTCGGGCGCAGACCTTACCCACCAGCGTCGTCA
CCATCACCAGCGAGTCCAGTCCTGGCAAGAGGGAGAAGGATAAAGAGAAAGACAAAGAGAAGAGGTTCAG
CCTTTTCGGCAAGAAGAAG

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>MG216353 representing NM_175836
Red=Cloning site Green=Tags(s)

MTTTVATDYDNIEIQQQYSDVNNRWDVDDWDNENSSARLFERSRIKALADEREAVQKKTFTKWVNSHLAR
VSCRITDLYTDLRDGRMLIKLLEVLSGERLPKPTKGRMRIHCLENVDKALQFLKEQRVHLENMGSHDIVD
GNHRLTLGLIWTIILRFQIQDISVETEDNKEKKSAKDALLLWCQMKTAGYPNVNIHNFTTSWRDGMAFNA
LIHKHRPDLIDFDKLKKSNAHYNLQNAFNLAEQHLGLTKLLDPEDISVDHPDEKSIITYVVTYYHYFSKM
KALAVEGKRIGKVLDNAIETEKMIEKYESLASDLLEWIEQTIIILNNRKFANSLVGVQQQLQAFNTYRTV
EKPPKFTEKGNLEVLLFTIQSKMRANNQKVYMPREGKLISDINKAWERLEKAEHERELALRNELIRQEKL
EQLARRFDRKAAMRETWLSENQRLVSQDNFGFDLPAVEAATKKHEAIETDIAAYEERVQAVVAVARELEA
ENYHDIKRITARKDNVIRLWEYLLELLRARRQRLEMNLGLQKIFQEMLYIMDWMDEMKVLLLSQDYGKHL
LGVEDLLQKHALVEADIAIQAERVRGVNASAQKFATDGEGYKPCDPQVIRDRVAHMEFCYQELCQLAAER
RARLEESRRLWKFFWEMAEEEGWIREKEKILSSDDYGKDLTSVMRLLSKHRAFEDEMSGRSGHFEQAIKE
GEDMIAEEHFGSEKIRERIIYIREQWANLEQLSAIRKKRLEEASLLHQFQADADDIDAWMLDILKIVSSN
DVGHDEYSTQSLVKKHKDVAEEITNYRPTIDTLHEQASALPQAHAESPDVKGRLAGIEERCKEMAELTRL
RKQALQDTLALYKMFSEADACELWIDEKEQWLNNMQIPEKLEDLEVIQHRFESLEPEMNNQASRVAVVNQ
IARQLMHNGHPSEKEIRAQQDKLNTRWSQFRELVDRKKDALLSALSIQNYHLECNETKSWIREKTKVIES
TQDLGNDLAGVMALQRKLTGMERDLVAIEAKLSDLQKEAEKLESEHPDQAQAILSRLAEISDVWEEMKTT
LKNREASLGEASKLQQFLRDLDDFQSWLSRTQTAIASEDMPNTLTEAEKLLTQHENIKNEIDNYEEDYQK
MRDMGEMVTQGQTDAQYMFLRQRLQALDTGWNELHKMWENRQNLLSQSHAYQQFLRDTKQAEAFLNNQEY
VLAHTEMPTTLEGAEAAIKKQEDFMTTMDANEEKINAVVETGRRLVSDGNINSDRIQEKVDSIDDRHRKN
REAASELLMRLKDNRDLQKFLQDCQELSLWINEKMLTAQDMSYDEARNLHSKWLKHQAFMAELASNKEWL
DKIEKEGMQLISEKPETEAVVKEKLTGLHKMWEVLESTTQTKAQRLFDANKAELFTQSCADLDKWLHGLE
SQIQSDDYGKDLTSVNILLKKQQMLENQMEVRKKEIEELQSQAQALSQEGKSTDEVDSKRLTVQTKFMEL
LEPLSERKHNLLASKEIHQFNRDVEDEILWVGERMPLATSTDHGHNLQTVQLLIKKNQTLQKEIQGHQPR
IDDIFERSQNIITDSSSLNAEAIRQRLADLKQLWGLLIEETEKRHRRLEEAHKAQQYYFDAAEAEAWMSE
QELYMMSEEKAKDEQSAVSMLKKHQILEQAVEDYAETVHQLSKTSRALVADSHPESERISMRQSKVDKLY
AGLKDLAEERRGKLDERHRLFQLNREVDDLEQWIAEREVVAGSHELGQDYEHVTMLQERFREFARDTGNI
GQERVDTVNNMADELINSGHSDAATIAEWKDGLNEAWADLLELIDTRTQILAASYELHKFYHDAKEIFGR
IQDKHKKLPEELGRDQNTVETLQRMHTTFEHDIQALGTQVRQLQEDAARLQAAYAGDKADDIQKRENEVL
EAWKSLLDACEGRRVRLVDTGDKFRFFSMVRDLMLWMEDVIRQIEAQEKPRDVSSVELLMNNHQGIKAEI
DARNDSFTACIELGKSLLARKHYASEEIKEKLLQLTEKRKEMIDKWEDRWEWLRLILEVHQFSRDASVAE
AWLLGQEPYLSSREIGQSVDEVEKLIKRHEAFEKSAATWDERFSALERLTTLELLEVRRQQEEEERKRRP
PSPDPNTKVSEEAESQQWDTSKGDQVSQNGLPAEQGSPRMAGTMETSEMVNGAAEQRTSSKESSPVPSPT
LDRKAKSALPAQSAATLPARTLETPAAQMEGFLNRKHEWEAHNKKASSRSWHNVYCVINNQEMGFYKDAK
SAASGIPYHSEVPVSLKEAICEVALDYKKKKHVFKLRLSDGNEYLFQAKDDEEMNTWIQAISSAISSDKH
DTSASTQSTPASSRAQTLPTSVVTITSESSPGKREKDKEKDKEKRFSLFGKKK

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene | Plasmid Map
ACCN NM_175836
ORF Size 7089 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_175836.2, NP_787030.2
RefSeq Size 8265 bp
RefSeq ORF 7092 bp
Locus ID 20742
UniProt ID Q62261
Cytogenetics 11 17.44 cM
Summary Fodrin, which seems to be involved in secretion, interacts with calmodulin in a calcium-dependent manner and is thus candidate for the calcium-dependent movement of the cytoskeleton at the membrane.UniProtKB/Swiss-Prot Function
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Documents
Resources
"NM_175836" in other vectors (2)
SKU Description Size Price
MC225293 Sptbn1 (untagged) - Mouse spectrin beta 2 (Spnb2), transcript variant 1, (10ug) 10 ug
$2,146.00
MR216353 Sptbn1 (Myc-DDK-tagged) - Mouse spectrin beta 2 (Spnb2), transcript variant 1 10 ug
$1,950.00

file-alt Citations

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