Trpm3 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Trpm3
Entrez Gene ID	309407
Full Name	transient receptor potential cation channel, subfamily M, member 3
General protein information	Preferred Names transient receptor potential cation channel, subfamily M, member 3 Names transient receptor potential cation channel subfamily M member 3
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 1 Map Location: 1q51

mRNA and Protein(s)

mRNA	Protein	Name
NM_001191562.1	NP_001178491.1	transient receptor potential cation channel subfamily M member 3 isoform a
NM_001354180.1	NP_001341109.1	transient receptor potential cation channel subfamily M member 3 isoform b

Pathways from BioSystems

Homologies

Homo sapiens (human)	TRPM3	NP_001007472.2
Mus musculus (house mouse)	Trpm3	NP_001030317.1
	TRPM3	XP_002800180.1
Canis lupus familiaris (dog)	TRPM3	XP_005615919.1
Xenopus tropicalis (tropical clawed frog)	trpm3	XP_004910826.1
Danio rerio (zebrafish)	trpm3	XP_005171986.1
Rattus norvegicus (Norway rat)	Trpm3	NP_001178491.1
Gallus gallus (chicken)	TRPM3	XP_004949217.1
Drosophila melanogaster (fruit fly)	trpm	NP_001137673.1
Pan troglodytes (chimpanzee)	TRPM3	XP_003951505.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP006825	XP_308919.3

Gene Ontology
Bibliography

Related articles in PubMed

Pregnenolone sulfate activates basic region leucine zipper transcription factors in insulinoma cells: role of voltage-gated Ca2+ channels and transient receptor potential melastatin 3 channels.
M?ller I, R?ssler OG, Thiel G
Molecular pharmacology80(6)1179-89(2011 Dec)

Activation of steroid-sensitive TRPM3 channels potentiates glutamatergic transmission at cerebellar Purkinje neurons from developing rats.
Zamudio-Bulcock PA, Everett J, Harteneck C, Valenzuela CF
Journal of neurochemistry119(3)474-85(2011 Nov)

Signal transduction of pregnenolone sulfate in insulinoma cells: activation of Egr-1 expression involving TRPM3, voltage-gated calcium channels, ERK, and ternary complex factors.
Mayer SI, M?ller I, Mannebach S, Endo T, Thiel G
The Journal of biological chemistry286(12)10084-96(2011 Mar)

TRPM3 is expressed in sphingosine-responsive myelinating oligodendrocytes.
Hoffmann A, Grimm C, Kraft R, Goldbaum O, Wrede A, Nolte C, Hanisch UK, Richter-Landsberg C, Br?ck W, Kettenmann H, Harteneck C
Journal of neurochemistry114(3)654-65(2010 Aug)

Transient receptor potential M3 channels are ionotropic steroid receptors in pancreatic beta cells.
Wagner TF, Loch S, Lambert S, Straub I, Mannebach S, Mathar I, D?fer M, Lis A, Flockerzi V, Philipp SE, Oberwinkler J
Nature cell biology10(12)1421-30(2008 Dec)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Expression of TRPM3 or depolarization of insulinoma cells is required to connect pregnenolone sulfate stimulation with enhanced gene transcription.
Title: Pregnenolone sulfate activates basic region leucine zipper transcription factors in insulinoma cells: role of voltage-gated Ca2+ channels and transient receptor potential melastatin 3 channels.

TRPM3 channels are novel modulators of glutamatergic transmission in the neonatal cerebellar cortex.
Title: Activation of steroid-sensitive TRPM3 channels potentiates glutamatergic transmission at cerebellar Purkinje neurons from developing rats.

Signal transduction of pregnenolone sulfate in insulinoma cells: activation of Egr-1 expression involving TRPM3, voltage-gated calcium channels, ERK, and ternary complex factors.
Title: Signal transduction of pregnenolone sulfate in insulinoma cells: activation of Egr-1 expression involving TRPM3, voltage-gated calcium channels, ERK, and ternary complex factors.

TRPM3 participates as a divalent calcium ion-permeable and sphingosine-activated channel in oligodendrocyte differentiation and nervous system myelination.
Title: TRPM3 is expressed in sphingosine-responsive myelinating oligodendrocytes.

TRPM3 is an essential component of an ionotropic steroid receptor enabling unanticipated crosstalk between steroidal and insulin-signalling endocrine systems.
Title: Transient receptor potential M3 channels are ionotropic steroid receptors in pancreatic beta cells.

The following Trpm3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Trpm3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
ORa63289	NM_001354180.1 Latest version!	Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00
ORa39819	NM_001191562.1 Latest version!	Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

Trpm3 ( NM_001354180.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001341109.1 Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 2, mRNA.

Price & Availability↑

CloneID	ORa63289
Clone ID Related Accession (Same CDS sequence)	NM_001354180.1
Accession Version	NM_001354180.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5160bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-10-02
Organism	Rattus norvegicus(Norway rat)
Product	transient receptor potential cation channel subfamily M member 3 isoform b
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07006564.1, AABR07006566.1, AABR07006569.1, AABR07006575.1 and AABR07006576.1. Transcript Variant: This variant (2) differs in the 5' UTR and coding sequence compared to variant 1. The resulting isoform (b) has a shorter and distinct N-terminus compared to isoform a. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

ATGCCAGGGC CGTGGGGGAC CGTTTATTTT CTAGGCACTG CCCAGATTTG CAGTTTCTTA 
TCTTCCCGGT GGAATTTGGA AGGGGTCATG AATCAGACTG ATGCTTCTCG ACCCCTAAAT 
TGGACCATCC GGAAGCTATG CCACGCAGCC TTTCTCCCAT CTGTCAGACT TCTCAAGGCT 
CAGAAATCCT GGATTGAAAG AGCATTTTAT AAAAGAGAAT GTGTTCACAT CATACCCAGC 
ACCAAAGACC CCCATAGGTG TTGCTGTGGG CGCCTGATAG GCCAGCATGT CGGACTCACT 
CCCAGTATCT CTGTGCTTCA GAATGAGAAA AATGAGAGTC GCCTCTCCCG AAATGACATC 
CAGTCTGAGA AGTGGTCTAT CAGCAAACAC ACTCAGCTCA GCCCAACGGA TGCTTTTGGG 
ACTATTGAGT TCCAAGGAGG CGGTCATTCC AACAAAGCCA TGTATGTCCG AGTATCTTTT 
GATACGAAAC CTGATCTCTT GCTACACCTG ATGACCAAGG AATGGCAACT AGAGCTTCCC 
AAACTTCTCA TCTCTGTGCA CGGAGGGCTG CAGAACTTTG AACTCCAGCC CAAACTCAAG 
CAAGTCTTCG GGAAAGGGCT CATCAAAGCA GCCATGACAA CTGGAGCCTG GATCTTCACT 
GGAGGGGTCA ACACAGGTGT CATCCGTCAT GTGGGAGATG CCTTGAAGGA CCACGCATCT 
AAGTCTCGAG GGAAGATATG CACCATAGGT ATCGCACCCT GGGGAATTGT GGAAAACCAG 
GAAGACCTGA TCGGAAGAGA TGTAGTCCGA CCATACCAGA CCATGTCAAA CCCTATGAGC 
AAGCTCACGG TTCTCAACAG CATGCACTCC CACTTCATCC TGGCTGACAA TGGGACCACG 
GGAAAATACG GGGCCGAGGT GAAACTCCGC AGACAACTGG AAAAGCACAT TTCACTCCAG 
AAGATAAACA CAAGAATCGG TCAAGGGGTT CCAGTGGTGG CCCTCATCGT GGAAGGAGGA 
CCCAATGTGA TCTCAATTGT TTTGGAATAC CTTCGAGACA CCCCTCCTGT ACCAGTCGTG 
GTCTGCGATG GCAGTGGACG GGCATCCGAC ATTCTGGCAT TTGGGCATAA ATATTCAGAA 
GAAGGCGGTC TTATCAATGA ATCTTTGAGG GACCAGCTGT TGGTGACAAT ACAGAAGACC 
TTCACATACA CCCGCACCCA AGCCCAGCAC CTGTTCATCA TCCTCATGGA ATGCATGAAG 
AAGAAGGAAT TGATCACAGT GTTTCGAATG GGATCAGAAG GCCACCAGGA CATTGATTTA 
GCTATCCTGA CAGCACTACT CAAAGGAGCC AATGCATCCG CCCCAGACCA GCTGAGCTTA 
GCATTAGCCT GGAACAGAGT TGACATCGCT CGCAGCCAGA TCTTTATTTA CGGGCAGCAG 
TGGCCGGTAG GGTCCCTGGA GCAAGCCATG CTGGATGCCC TAGTCCTGGA CAGAGTGGAC 
TTTGTGAAAT TACTCATAGA AAACGGAGTA AGCATGCACC GTTTTCTCAC CATCTCCAGA 
CTAGAGGAAC TGTACAATAC GAGACATGGG CCCTCAAATA CATTGTACCA CTTGGTCAGG 
GATGTCAAAA AGGGAAACCT GCCCCCGGAC TACAGAATCA GCCTGATAGA CATTGGCCTG 
GTGATCGAGT ACCTGATGGG TGGGGCTTAC CGCTGCAACT ACACACGCAA GCGCTTTCGG 
ACCCTCTACC ACAATCTCTT TGGCCCCAAA AGGCCCAAAG CCTTGAAACT GCTGGGAATG 
GAGGATGATA TTCCCTTGAG GAGAGGAAGA AAGACAACTA AGAAACGTGA GGAAGAGGTG 
GACATAGACT TGGATGACCC TGAGATCAAC CACTTCCCAT TCCCTTTCCA TGAGCTGATG 
GTGTGGGCTG TCCTCATGAA GAGGCAGAAG ATGGCCCTGT TCTTCTGGCA GCATGGAGAG 
GAGGCCATGG CTAAAGCCCT GGTGGCCTGC AAGCTCTGCA AAGCCATGGC CCATGAGGCT 
TCTGAGAATG ATATGGTGGA TGACATTTCC CAAGAGCTGA ACCACAACTC CAGGGACTTT 
GGCCAGCTGG CTGTGGAGCT TTTGGACCAG TCCTACAAAC AGGATGAGCA GCTGGCCATG 
AAACTGCTGA CGTATGAGTT GAAGAACTGG AGCAATGCCA CATGCCTGCA GCTGGCTGTG 
GCTGCCAAGC ACCGTGACTT CATTGCACAC ACGTGCAGCC AGATGTTACT TACCGACATG 
TGGATGGGAC GGCTCCGCAT GCGAAAGAAC TCAGGCCTCA AGGTAATTCT GGGAATTCTA 
CTTCCTCCTT CAATTCTCAG CTTGGAGTTC AAGAACAAAG ATGACATGCC CTATATGACT 
CAGGCCCAAG AAATTCATCT CCAAGAGAAG GAGCCGGAGG AACCGGAGAA GCCTACAAAG 
GAAAAAGATG AAGAGGACAT GGAGCTAACA GCAATGTTGG GACGAAACAA TGGGGAGTCA 
TCCAGAAAGA AAGACGAAGA AGAAGTTCAA AGCAGGCATC GACTAATCCC TGTGGGCCGA 
AAAATCTATG AGTTCTACAA CGCACCCATT GTGAAGTTCT GGTTCTACAC TCTGGCGTAC 
ATTGGATACC TGATGCTCTT CAATTACATC GTGCTGGTGA AGATGGAGCG CTGGCCTTCC 
ACTCAGGAAT GGATCGTCAT CTCCTACATC TTCACTCTGG GAATAGAGAA GATGAGAGAG 
ATCCTGATGT CAGAGCCGGG CAAGCTGCTG CAGAAAGTCA AAGTGTGGCT GCAGGAGTAC 
TGGAACGTCA CGGACCTCAT CGCCATCCTC CTCTTCTCGG TGGGAATGAT CCTTCGTCTT 
CAAGACCAGC CCTTCAGGAG TGACGGGAGG GTCATCTACT GTGTGAACAT CATTTATTGG 
TATATCCGTT TACTAGACAT CTTCGGCGTG AACAAGTATC TGGGCCCATA CGTAATGATG 
ATTGGGAAAA TGATGATAGA CATGATGTAC TTCGTCATCA TTATGCTGGT GGTGCTGATG 
AGCTTTGGGG TCGCCAGGCA AGCCATTCTC TTTCCCAATG AGGAGCCATC TTGGAAACTG 
GCCAAGAATA TCTTCTACAT GCCTTATTGG ATGATTTATG GGGAAGTGTT TGCTGACCAG 
ATAGACCGTA AGCAAGTTTA TGATTCTCAT ACACCAAAGT CAGCTCCCTG TGGACAGAAC 
GAGACCCGAG AGGATGGCAA GACAATCCAG CTGCCCCCAT GCAAGACAGG AGCATGGATT 
GTGCCAGCCA TCATGGCCTG CTACCTCTTA GTAGCGAACA TCCTTCTGGT CAACCTCCTT 
ATTGCTGTCT TCAACAATAC ATTTTTTGAG GTCAAGTCGA TATCCAACCA AGTATGGAAA 
TTTCAGAGGT ACCAGCTCAT CATGACTTTC CATGAGAGAC CAGTTCTGCC TCCACCGCTC 
ATCATCTTCA GTCACATGAC CATGATATTC CAGCATGTGT GCTGCCGATG GAGGAAGCAT 
GAGAGTGACC CGGATGAAAG GGACTACGGC CTGAAACTCT TCATAACTGA TGATGAGCTC 
AAGAAAGTAC ATGATTTTGA AGAGCAGTGC ATAGAGGAAT ATTTCAGAGA GAAGGATGAC 
CGCTTCAATT CATCCAATGA TGAGAGGATA CGGGTTACGT CAGAAAGGGT GGAGAACATG 
TCCATGAGGC TGGAGGAAGT CAATGAGAGA GAACATTCCA TGAAGGCTTC ACTCCAGACT 
GTGGACATCC GGCTAGCACA GCTGGAGGAT CTCATCGGGC GCATGGCCAC TGCCCTGGAG 
CGCCTAACAG GTCTGGAGCG GGCAGAGTCT AACAAAATCC GCTCAAGGAC CTCCTCAGAC 
TGCACAGACG CAGCCTACAT CGTCCGCCAG AGCAGCTTCA ACAGTCAGGA AGGGAACACC 
TTCAAACTTC AAGAGAGTAT AGACCCTGCA GGTGAGGAGA CCATGTCCCC AACTTCTCCA 
ACCTTAATGC CCCGTATGCG AAGCCATTCT TTCTATTCGG TCAATGTGAA AGACAAAGGT 
GGTATAGAAA AGTTGGAGAG CATTTTCAAA GAAAGGTCCC TGAGCTTACA CCGTGCTACT 
AGCTCCCACT CAGTAGCCAA GGAGCCCAAA GCTCCTGCAG CCCCTGCAAA CACCTTGGCC 
ATTGTTCCTG ATTCCAGAAG ACCATCGTCA TGCATAGACA TCTATGTCTC TGCCATGGAT 
GAGCTCCACT GTGATATAGA CCCTCTGGAT AATTCCATGA ACATCCTTGG GCTGGGCGAG 
CCAAGCTTTT CAGCTCTAGC ACCTTCCACA GCCCCTTCAA GCAGTGCCTA TGCAACCCTT 
GCACCTACAG ACCGACCTCC AAGCAGGAGC ATTGATTTTG AAGACCTCAC CTCCATGGAC 
ACTAGATCTT TTTCTTCAGA CTATACCCAC CTCCCAGAAT GCCAAAACCC CTGGGACACA 
GACCCTCCAA TGTACCATAC CATCGAGCGT TCCAAGAGTA GCCGCTACCT AGCCACTACA 
CCCTTCCTTC TGGAAGAGGC CCCCATTGTA AAATCCCATA GCTTTATGTT TTCTCCTTCA 
AGGAGTTACT ACGCCAACTT TGGGGTGCCC GTGAAAACAG CAGAATACAC AAGTATTACA 
GACTGTATCG ACACAAGATG TGTCAATGCC CCCCAAGCAA TAGCTGACAG AGCCACCTTC 
CCCGGAGGTC TCGGAGACAA AGTGGAAGAT TTATCTTGTT GCCACCCTGA GCGAGAAGCA 
GAGCTGAGCC ACCCTAGCTC TGACAGTGAG GAAAATGAGG CCAGAGGCCG GAGAGCTGCC 
AATCCGATAT CCTCTCAGGA GACTGAAAAT GCAGACAGAA CCCTATCCAA CAACATCACA 
GTTCCCAAGA TAGAGCGCGC CAACAGCTAC TCGGCAGAGG AGCCAAGCGC GCCATATGCA 
CATACCAGAA AGAGCTTCTC CATCAGTGAC AAGCTTGATA GACAGAGGAA CACAGCAAGC 
CTCCGAAATC CCTTCCAGAG AAGTAAGTCC TCCAAGCCGG AGGGCCGAGG GGACAGCGTA 
TCCATGAGAA GACTGTCTAG AACATCGGCT TTTCATAGCT TTGAGAGCAA GCACAACTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001341109.1
CDS	1..5160
Translation	MPGPWGTVYFLGTAQICSFLSSRWNLEGVMNQTDASRPLNWTIRKLCHAAFLPSVRLLKAQKSWIERAFYKRECVHIIPSTKDPHRCCCGRLIGQHVGLTPSISVLQNEKNESRLSRNDIQSEKWSISKHTQLSPTDAFGTIEFQGGGHSNKAMYVRVSFDTKPDLLLHLMTKEWQLELPKLLISVHGGLQNFELQPKLKQVFGKGLIKAAMTTGAWIFTGGVNTGVIRHVGDALKDHASKSRGKICTIGIAPWGIVENQEDLIGRDVVRPYQTMSNPMSKLTVLNSMHSHFILADNGTTGKYGAEVKLRRQLEKHISLQKINTRIGQGVPVVALIVEGGPNVISIVLEYLRDTPPVPVVVCDGSGRASDILAFGHKYSEEGGLINESLRDQLLVTIQKTFTYTRTQAQHLFIILMECMKKKELITVFRMGSEGHQDIDLAILTALLKGANASAPDQLSLALAWNRVDIARSQIFIYGQQWPVGSLEQAMLDALVLDRVDFVKLLIENGVSMHRFLTISRLEELYNTRHGPSNTLYHLVRDVKKGNLPPDYRISLIDIGLVIEYLMGGAYRCNYTRKRFRTLYHNLFGPKRPKALKLLGMEDDIPLRRGRKTTKKREEEVDIDLDDPEINHFPFPFHELMVWAVLMKRQKMALFFWQHGEEAMAKALVACKLCKAMAHEASENDMVDDISQELNHNSRDFGQLAVELLDQSYKQDEQLAMKLLTYELKNWSNATCLQLAVAAKHRDFIAHTCSQMLLTDMWMGRLRMRKNSGLKVILGILLPPSILSLEFKNKDDMPYMTQAQEIHLQEKEPEEPEKPTKEKDEEDMELTAMLGRNNGESSRKKDEEEVQSRHRLIPVGRKIYEFYNAPIVKFWFYTLAYIGYLMLFNYIVLVKMERWPSTQEWIVISYIFTLGIEKMREILMSEPGKLLQKVKVWLQEYWNVTDLIAILLFSVGMILRLQDQPFRSDGRVIYCVNIIYWYIRLLDIFGVNKYLGPYVMMIGKMMIDMMYFVIIMLVVLMSFGVARQAILFPNEEPSWKLAKNIFYMPYWMIYGEVFADQIDRKQVYDSHTPKSAPCGQNETREDGKTIQLPPCKTGAWIVPAIMACYLLVANILLVNLLIAVFNNTFFEVKSISNQVWKFQRYQLIMTFHERPVLPPPLIIFSHMTMIFQHVCCRWRKHESDPDERDYGLKLFITDDELKKVHDFEEQCIEEYFREKDDRFNSSNDERIRVTSERVENMSMRLEEVNEREHSMKASLQTVDIRLAQLEDLIGRMATALERLTGLERAESNKIRSRTSSDCTDAAYIVRQSSFNSQEGNTFKLQESIDPAGEETMSPTSPTLMPRMRSHSFYSVNVKDKGGIEKLESIFKERSLSLHRATSSHSVAKEPKAPAAPANTLAIVPDSRRPSSCIDIYVSAMDELHCDIDPLDNSMNILGLGEPSFSALAPSTAPSSSAYATLAPTDRPPSRSIDFEDLTSMDTRSFSSDYTHLPECQNPWDTDPPMYHTIERSKSSRYLATTPFLLEEAPIVKSHSFMFSPSRSYYANFGVPVKTAEYTSITDCIDTRCVNAPQAIADRATFPGGLGDKVEDLSCCHPEREAELSHPSSDSEENEARGRRAANPISSQETENADRTLSNNITVPKIERANSYSAEEPSAPYAHTRKSFSISDKLDRQRNTASLRNPFQRSKSSKPEGRGDSVSMRRLSRTSAFHSFESKHN

Target ORF information:

RefSeq Version	NM_001354180.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001354180.1

ORF Insert Sequence:

ATGCCAGGGC CGTGGGGGAC CGTTTATTTT CTAGGCACTG CCCAGATTTG CAGTTTCTTA 
TCTTCCCGGT GGAATTTGGA AGGGGTCATG AATCAGACTG ATGCTTCTCG ACCCCTAAAT 
TGGACCATCC GGAAGCTATG CCACGCAGCC TTTCTCCCAT CTGTCAGACT TCTCAAGGCT 
CAGAAATCCT GGATTGAAAG AGCATTTTAT AAAAGAGAAT GTGTTCACAT CATACCCAGC 
ACCAAAGACC CCCATAGGTG TTGCTGTGGG CGCCTGATAG GCCAGCATGT CGGACTCACT 
CCCAGTATCT CTGTGCTTCA GAATGAGAAA AATGAGAGTC GCCTCTCCCG AAATGACATC 
CAGTCTGAGA AGTGGTCTAT CAGCAAACAC ACTCAGCTCA GCCCAACGGA TGCTTTTGGG 
ACTATTGAGT TCCAAGGAGG CGGTCATTCC AACAAAGCCA TGTATGTCCG AGTATCTTTT 
GATACGAAAC CTGATCTCTT GCTACACCTG ATGACCAAGG AATGGCAACT AGAGCTTCCC 
AAACTTCTCA TCTCTGTGCA CGGAGGGCTG CAGAACTTTG AACTCCAGCC CAAACTCAAG 
CAAGTCTTCG GGAAAGGGCT CATCAAAGCA GCCATGACAA CTGGAGCCTG GATCTTCACT 
GGAGGGGTCA ACACAGGTGT CATCCGTCAT GTGGGAGATG CCTTGAAGGA CCACGCATCT 
AAGTCTCGAG GGAAGATATG CACCATAGGT ATCGCACCCT GGGGAATTGT GGAAAACCAG 
GAAGACCTGA TCGGAAGAGA TGTAGTCCGA CCATACCAGA CCATGTCAAA CCCTATGAGC 
AAGCTCACGG TTCTCAACAG CATGCACTCC CACTTCATCC TGGCTGACAA TGGGACCACG 
GGAAAATACG GGGCCGAGGT GAAACTCCGC AGACAACTGG AAAAGCACAT TTCACTCCAG 
AAGATAAACA CAAGAATCGG TCAAGGGGTT CCAGTGGTGG CCCTCATCGT GGAAGGAGGA 
CCCAATGTGA TCTCAATTGT TTTGGAATAC CTTCGAGACA CCCCTCCTGT ACCAGTCGTG 
GTCTGCGATG GCAGTGGACG GGCATCCGAC ATTCTGGCAT TTGGGCATAA ATATTCAGAA 
GAAGGCGGTC TTATCAATGA ATCTTTGAGG GACCAGCTGT TGGTGACAAT ACAGAAGACC 
TTCACATACA CCCGCACCCA AGCCCAGCAC CTGTTCATCA TCCTCATGGA ATGCATGAAG 
AAGAAGGAAT TGATCACAGT GTTTCGAATG GGATCAGAAG GCCACCAGGA CATTGATTTA 
GCTATCCTGA CAGCACTACT CAAAGGAGCC AATGCATCCG CCCCAGACCA GCTGAGCTTA 
GCATTAGCCT GGAACAGAGT TGACATCGCT CGCAGCCAGA TCTTTATTTA CGGGCAGCAG 
TGGCCGGTAG GGTCCCTGGA GCAAGCCATG CTGGATGCCC TAGTCCTGGA CAGAGTGGAC 
TTTGTGAAAT TACTCATAGA AAACGGAGTA AGCATGCACC GTTTTCTCAC CATCTCCAGA 
CTAGAGGAAC TGTACAATAC GAGACATGGG CCCTCAAATA CATTGTACCA CTTGGTCAGG 
GATGTCAAAA AGGGAAACCT GCCCCCGGAC TACAGAATCA GCCTGATAGA CATTGGCCTG 
GTGATCGAGT ACCTGATGGG TGGGGCTTAC CGCTGCAACT ACACACGCAA GCGCTTTCGG 
ACCCTCTACC ACAATCTCTT TGGCCCCAAA AGGCCCAAAG CCTTGAAACT GCTGGGAATG 
GAGGATGATA TTCCCTTGAG GAGAGGAAGA AAGACAACTA AGAAACGTGA GGAAGAGGTG 
GACATAGACT TGGATGACCC TGAGATCAAC CACTTCCCAT TCCCTTTCCA TGAGCTGATG 
GTGTGGGCTG TCCTCATGAA GAGGCAGAAG ATGGCCCTGT TCTTCTGGCA GCATGGAGAG 
GAGGCCATGG CTAAAGCCCT GGTGGCCTGC AAGCTCTGCA AAGCCATGGC CCATGAGGCT 
TCTGAGAATG ATATGGTGGA TGACATTTCC CAAGAGCTGA ACCACAACTC CAGGGACTTT 
GGCCAGCTGG CTGTGGAGCT TTTGGACCAG TCCTACAAAC AGGATGAGCA GCTGGCCATG 
AAACTGCTGA CGTATGAGTT GAAGAACTGG AGCAATGCCA CATGCCTGCA GCTGGCTGTG 
GCTGCCAAGC ACCGTGACTT CATTGCACAC ACGTGCAGCC AGATGTTACT TACCGACATG 
TGGATGGGAC GGCTCCGCAT GCGAAAGAAC TCAGGCCTCA AGGTAATTCT GGGAATTCTA 
CTTCCTCCTT CAATTCTCAG CTTGGAGTTC AAGAACAAAG ATGACATGCC CTATATGACT 
CAGGCCCAAG AAATTCATCT CCAAGAGAAG GAGCCGGAGG AACCGGAGAA GCCTACAAAG 
GAAAAAGATG AAGAGGACAT GGAGCTAACA GCAATGTTGG GACGAAACAA TGGGGAGTCA 
TCCAGAAAGA AAGACGAAGA AGAAGTTCAA AGCAGGCATC GACTAATCCC TGTGGGCCGA 
AAAATCTATG AGTTCTACAA CGCACCCATT GTGAAGTTCT GGTTCTACAC TCTGGCGTAC 
ATTGGATACC TGATGCTCTT CAATTACATC GTGCTGGTGA AGATGGAGCG CTGGCCTTCC 
ACTCAGGAAT GGATCGTCAT CTCCTACATC TTCACTCTGG GAATAGAGAA GATGAGAGAG 
ATCCTGATGT CAGAGCCGGG CAAGCTGCTG CAGAAAGTCA AAGTGTGGCT GCAGGAGTAC 
TGGAACGTCA CGGACCTCAT CGCCATCCTC CTCTTCTCGG TGGGAATGAT CCTTCGTCTT 
CAAGACCAGC CCTTCAGGAG TGACGGGAGG GTCATCTACT GTGTGAACAT CATTTATTGG 
TATATCCGTT TACTAGACAT CTTCGGCGTG AACAAGTATC TGGGCCCATA CGTAATGATG 
ATTGGGAAAA TGATGATAGA CATGATGTAC TTCGTCATCA TTATGCTGGT GGTGCTGATG 
AGCTTTGGGG TCGCCAGGCA AGCCATTCTC TTTCCCAATG AGGAGCCATC TTGGAAACTG 
GCCAAGAATA TCTTCTACAT GCCTTATTGG ATGATTTATG GGGAAGTGTT TGCTGACCAG 
ATAGACCGTA AGCAAGTTTA TGATTCTCAT ACACCAAAGT CAGCTCCCTG TGGACAGAAC 
GAGACCCGAG AGGATGGCAA GACAATCCAG CTGCCCCCAT GCAAGACAGG AGCATGGATT 
GTGCCAGCCA TCATGGCCTG CTACCTCTTA GTAGCGAACA TCCTTCTGGT CAACCTCCTT 
ATTGCTGTCT TCAACAATAC ATTTTTTGAG GTCAAGTCGA TATCCAACCA AGTATGGAAA 
TTTCAGAGGT ACCAGCTCAT CATGACTTTC CATGAGAGAC CAGTTCTGCC TCCACCGCTC 
ATCATCTTCA GTCACATGAC CATGATATTC CAGCATGTGT GCTGCCGATG GAGGAAGCAT 
GAGAGTGACC CGGATGAAAG GGACTACGGC CTGAAACTCT TCATAACTGA TGATGAGCTC 
AAGAAAGTAC ATGATTTTGA AGAGCAGTGC ATAGAGGAAT ATTTCAGAGA GAAGGATGAC 
CGCTTCAATT CATCCAATGA TGAGAGGATA CGGGTTACGT CAGAAAGGGT GGAGAACATG 
TCCATGAGGC TGGAGGAAGT CAATGAGAGA GAACATTCCA TGAAGGCTTC ACTCCAGACT 
GTGGACATCC GGCTAGCACA GCTGGAGGAT CTCATCGGGC GCATGGCCAC TGCCCTGGAG 
CGCCTAACAG GTCTGGAGCG GGCAGAGTCT AACAAAATCC GCTCAAGGAC CTCCTCAGAC 
TGCACAGACG CAGCCTACAT CGTCCGCCAG AGCAGCTTCA ACAGTCAGGA AGGGAACACC 
TTCAAACTTC AAGAGAGTAT AGACCCTGCA GGTGAGGAGA CCATGTCCCC AACTTCTCCA 
ACCTTAATGC CCCGTATGCG AAGCCATTCT TTCTATTCGG TCAATGTGAA AGACAAAGGT 
GGTATAGAAA AGTTGGAGAG CATTTTCAAA GAAAGGTCCC TGAGCTTACA CCGTGCTACT 
AGCTCCCACT CAGTAGCCAA GGAGCCCAAA GCTCCTGCAG CCCCTGCAAA CACCTTGGCC 
ATTGTTCCTG ATTCCAGAAG ACCATCGTCA TGCATAGACA TCTATGTCTC TGCCATGGAT 
GAGCTCCACT GTGATATAGA CCCTCTGGAT AATTCCATGA ACATCCTTGG GCTGGGCGAG 
CCAAGCTTTT CAGCTCTAGC ACCTTCCACA GCCCCTTCAA GCAGTGCCTA TGCAACCCTT 
GCACCTACAG ACCGACCTCC AAGCAGGAGC ATTGATTTTG AAGACCTCAC CTCCATGGAC 
ACTAGATCTT TTTCTTCAGA CTATACCCAC CTCCCAGAAT GCCAAAACCC CTGGGACACA 
GACCCTCCAA TGTACCATAC CATCGAGCGT TCCAAGAGTA GCCGCTACCT AGCCACTACA 
CCCTTCCTTC TGGAAGAGGC CCCCATTGTA AAATCCCATA GCTTTATGTT TTCTCCTTCA 
AGGAGTTACT ACGCCAACTT TGGGGTGCCC GTGAAAACAG CAGAATACAC AAGTATTACA 
GACTGTATCG ACACAAGATG TGTCAATGCC CCCCAAGCAA TAGCTGACAG AGCCACCTTC 
CCCGGAGGTC TCGGAGACAA AGTGGAAGAT TTATCTTGTT GCCACCCTGA GCGAGAAGCA 
GAGCTGAGCC ACCCTAGCTC TGACAGTGAG GAAAATGAGG CCAGAGGCCG GAGAGCTGCC 
AATCCGATAT CCTCTCAGGA GACTGAAAAT GCAGACAGAA CCCTATCCAA CAACATCACA 
GTTCCCAAGA TAGAGCGCGC CAACAGCTAC TCGGCAGAGG AGCCAAGCGC GCCATATGCA 
CATACCAGAA AGAGCTTCTC CATCAGTGAC AAGCTTGATA GACAGAGGAA CACAGCAAGC 
CTCCGAAATC CCTTCCAGAG AAGTAAGTCC TCCAAGCCGG AGGGCCGAGG GGACAGCGTA 
TCCATGAGAA GACTGTCTAG AACATCGGCT TTTCATAGCT TTGAGAGCAA GCACAACTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Trpm3 ( NM_001191562.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001178491.1 Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 1, mRNA.

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CloneID	ORa39819
Clone ID Related Accession (Same CDS sequence)	NM_001191562.1
Accession Version	NM_001191562.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5166bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-10-01
Organism	Rattus norvegicus(Norway rat)
Product	transient receptor potential cation channel subfamily M member 3 isoform a
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AAHX01009945.1, AAHX01009970.1, AAHX01009971.1, AAHX01009973.1, AAHX01009975.1, AAHX01009976.1, AAHX01009979.1, AAHX01009980.1, AAHX01009981.1 and AAHX01009982.1. On Jul 17, 2010 this sequence version replaced XM_002728871.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments.

ATGGGCAAGA AGTGGAGGGA CGCGGGCGAG ATGGAGCGAG GCTGCTCTGA TCGCGAGGGC 
AGCGCGGAGA GCCGCCGGCG CAGCCGCAGC GCCAGCCGGG GCAGGTTTGC CGAGTCGTGG 
AAAAGGTTAA GTTCCAAGCA GGGGTCCACC AAGCGCTCGG GACTGCCAGC ACAGCAGACA 
CCGGCTCAGA AATCCTGGAT TGAAAGAGCA TTTTATAAAA GAGAATGTGT TCACATCATA 
CCCAGCACCA AAGACCCCCA TAGGTGTTGC TGTGGGCGCC TGATAGGCCA GCATGTCGGA 
CTCACTCCCA GTATCTCTGT GCTTCAGAAT GAGAAAAATG AGAGTCGCCT CTCCCGAAAT 
GACATCCAGT CTGAGAAGTG GTCTATCAGC AAACACACTC AGCTCAGCCC AACGGATGCT 
TTTGGGACTA TTGAGTTCCA AGGAGGCGGT CATTCCAACA AAGCCATGTA TGTCCGAGTA 
TCTTTTGATA CGAAACCTGA TCTCTTGCTA CACCTGATGA CCAAGGAATG GCAACTAGAG 
CTTCCCAAAC TTCTCATCTC TGTGCACGGA GGGCTGCAGA ACTTTGAACT CCAGCCCAAA 
CTCAAGCAAG TCTTCGGGAA AGGGCTCATC AAAGCAGCCA TGACAACTGG AGCCTGGATC 
TTCACTGGAG GGGTCAACAC AGGTGTCATC CGTCATGTGG GAGATGCCTT GAAGGACCAC 
GCATCTAAGT CTCGAGGGAA GATATGCACC ATAGGTATCG CACCCTGGGG AATTGTGGAA 
AACCAGGAAG ACCTGATCGG AAGAGATGTA GTCCGACCAT ACCAGACCAT GTCAAACCCT 
ATGAGCAAGC TCACGGTTCT CAACAGCATG CACTCCCACT TCATCCTGGC TGACAATGGG 
ACCACGGGAA AATACGGGGC CGAGGTGAAA CTCCGCAGAC AACTGGAAAA GCACATTTCA 
CTCCAGAAGA TAAACACAAG AATCGGTCAA GGGGTTCCAG TGGTGGCCCT CATCGTGGAA 
GGAGGACCCA ATGTGATCTC AATTGTTTTG GAATACCTTC GAGACACCCC TCCTGTACCA 
GTCGTGGTCT GCGATGGCAG TGGACGGGCA TCCGACATTC TGGCATTTGG GCATAAATAT 
TCAGAAGAAG GCGGTCTTAT CAATGAATCT TTGAGGGACC AGCTGTTGGT GACAATACAG 
AAGACCTTCA CATACACCCG CACCCAAGCC CAGCACCTGT TCATCATCCT CATGGAATGC 
ATGAAGAAGA AGGAATTGAT CACAGTGTTT CGAATGGGAT CAGAAGGCCA CCAGGACATT 
GATTTAGCTA TCCTGACAGC ACTACTCAAA GGAGCCAATG CATCCGCCCC AGACCAGCTG 
AGCTTAGCAT TAGCCTGGAA CAGAGTTGAC ATCGCTCGCA GCCAGATCTT TATTTACGGG 
CAGCAGTGGC CGGTAGGGTC CCTGGAGCAA GCCATGCTGG ATGCCCTAGT CCTGGACAGA 
GTGGACTTTG TGAAATTACT CATAGAAAAC GGAGTAAGCA TGCACCGTTT TCTCACCATC 
TCCAGACTAG AGGAACTGTA CAATACGAGA CATGGGCCCT CAAATACATT GTACCACTTG 
GTCAGGGATG TCAAAAAGGG AAACCTGCCC CCGGACTACA GAATCAGCCT GATAGACATT 
GGCCTGGTGA TCGAGTACCT GATGGGTGGG GCTTACCGCT GCAACTACAC ACGCAAGCGC 
TTTCGGACCC TCTACCACAA TCTCTTTGGC CCCAAAAGGC CCAAAGCCTT GAAACTGCTG 
GGAATGGAGG ATGATATTCC CTTGAGGAGA GGAAGAAAGA CAACTAAGAA ACGTGAGGAA 
GAGGTGGACA TAGACTTGGA TGACCCTGAG ATCAACCACT TCCCATTCCC TTTCCATGAG 
CTGATGGTGT GGGCTGTCCT CATGAAGAGG CAGAAGATGG CCCTGTTCTT CTGGCAGCAT 
GGAGAGGAGG CCATGGCTAA AGCCCTGGTG GCCTGCAAGC TCTGCAAAGC CATGGCCCAT 
GAGGCTTCTG AGAATGATAT GGTGGATGAC ATTTCCCAAG AGCTGAACCA CAACTCCAGG 
GACTTTGGCC AGCTGGCTGT GGAGCTTTTG GACCAGTCCT ACAAACAGGA TGAGCAGCTG 
GCCATGAAAC TGCTGACGTA TGAGTTGAAG AACTGGAGCA ATGCCACATG CCTGCAGCTG 
GCTGTGGCTG CCAAGCACCG TGACTTCATT GCACACACGT GCAGCCAGAT GTTACTTACC 
GACATGTGGA TGGGACGGCT CCGCATGCGA AAGAACTCAG GCCTCAAGGT AATTCTGGGA 
ATTCTACTTC CTCCTTCAAT TCTCAGCTTG GAGTTCAAGA ACAAAGATGA CATGCCCTAT 
ATGACTCAGG CCCAAGAAAT TCATCTCCAA GAGAAGGAGC CGGAGGAACC GGAGAAGCCT 
ACAAAGGAAA AAGATGAAGA GGACATGGAG CTAACAGCAA TGTTGGGACG AAACAATGGG 
GAGTCATCCA GAAAGAAAGA CGAAGAAGAA GTTCAAAGCA GGCATCGACT AATCCCTGTG 
GGCCGAAAAA TCTATGAGTT CTACAACGCA CCCATTGTGA AGTTCTGGTT CTACACTCTG 
GCGTACATTG GATACCTGAT GCTCTTCAAT TACATCGTGC TGGTGAAGAT GGAGCGCTGG 
CCTTCCACTC AGGAATGGAT CGTCATCTCC TACATCTTCA CTCTGGGAAT AGAGAAGATG 
AGAGAGATCC TGATGTCAGA GCCGGGCAAG CTGCTGCAGA AAGTCAAAGT GTGGCTGCAG 
GAGTACTGGA ACGTCACGGA CCTCATCGCC ATCCTCCTCT TCTCGGTGGG AATGATCCTT 
CGTCTTCAAG ACCAGCCCTT CAGGAGTGAC GGGAGGGTCA TCTACTGTGT GAACATCATT 
TATTGGTATA TCCGTTTACT AGACATCTTC GGCGTGAACA AGTATCTGGG CCCATACGTA 
ATGATGATTG GGAAAATGAT GATAGACATG ATGTACTTCG TCATCATTAT GCTGGTGGTG 
CTGATGAGCT TTGGGGTCGC CAGGCAAGCC ATTCTCTTTC CCAATGAGGA GCCATCTTGG 
AAACTGGCCA AGAATATCTT CTACATGCCT TATTGGATGA TTTATGGGGA AGTGTTTGCT 
GACCAGATAG ACCGTAAGCA AGTTTATGAT TCTCATACAC CAAAGTCAGC TCCCTGTGGA 
CAGAACGAGA CCCGAGAGGA TGGCAAGACA ATCCAGCTGC CCCCATGCAA GACAGGAGCA 
TGGATTGTGC CAGCCATCAT GGCCTGCTAC CTCTTAGTAG CGAACATCCT TCTGGTCAAC 
CTCCTTATTG CTGTCTTCAA CAATACATTT TTTGAGGTCA AGTCGATATC CAACCAAGTA 
TGGAAATTTC AGAGGTACCA GCTCATCATG ACTTTCCATG AGAGACCAGT TCTGCCTCCA 
CCGCTCATCA TCTTCAGTCA CATGACCATG ATATTCCAGC ATGTGTGCTG CCGATGGAGG 
AAGCATGAGA GTGACCCGGA TGAAAGGGAC TACGGCCTGA AACTCTTCAT AACTGATGAT 
GAGCTCAAGA AAGTACATGA TTTTGAAGAG CAGTGCATAG AGGAATATTT CAGAGAGAAG 
GATGACCGCT TCAATTCATC CAATGATGAG AGGATACGGG TTACGTCAGA AAGGGTGGAG 
AACATGTCCA TGAGGCTGGA GGAAGTCAAT GAGAGAGAAC ATTCCATGAA GGCTTCACTC 
CAGACTGTGG ACATCCGGCT AGCACAGCTG GAGGATCTCA TCGGGCGCAT GGCCACTGCC 
CTGGAGCGCC TAACAGGTCT GGAGCGGGCA GAGTCTAACA AAATCCGCTC AAGGACCTCC 
TCAGACTGCA CAGACGCAGC CTACATCGTC CGCCAGAGCA GCTTCAACAG TCAGGAAGGG 
AACACCTTCA AACTTCAAGA GAGTATAGAC CCTGCAGGTG AGGAGACCAT GTCCCCAACT 
TCTCCAACCT TAATGCCCCG TATGCGAAGC CATTCTTTCT ATTCGGTCAA TGTGAAAGAC 
AAAGGTGGTA TAGAAAAGTT GGAGAGCATT TTCAAAGAAA GGTCCCTGAG CTTACACCGT 
GCTACTAGCT CCCACTCAGT AGCCAAGGAG CCCAAAGCTC CTGCAGCCCC TGCAAACACC 
TTGGCCATTG TTCCTGATTC CAGAAGACCA TCGTCATGCA TAGACATCTA TGTCTCTGCC 
ATGGATGAGC TCCACTGTGA TATAGACCCT CTGGATAATT CCATGAACAT CCTTGGGCTG 
GGCGAGCCAA GCTTTTCAGC TCTAGCACCT TCCACAGCCC CTTCAAGCAG TGCCTATGCA 
ACCCTTGCAC CTACAGACCG ACCTCCAAGC AGGAGCATTG ATTTTGAAGA CCTCACCTCC 
ATGGACACTA GATCTTTTTC TTCAGACTAT ACCCACCTCC CAGAATGCCA AAACCCCTGG 
GACACAGACC CTCCAATGTA CCATACCATC GAGCGTTCCA AGAGTAGCCG CTACCTAGCC 
ACTACACCCT TCCTTCTGGA AGAGGCCCCC ATTGTAAAAT CCCATAGCTT TATGTTTTCT 
CCTTCAAGGA GTTACTACGC CAACTTTGGG GTGCCCGTGA AAACAGCAGA ATACACAAGT 
ATTACAGACT GTATCGACAC AAGATGTGTC AATGCCCCCC AAGCAATAGC TGACAGAGCC 
ACCTTCCCCG GAGGTCTCGG AGACAAAGTG GAAGATTTAT CTTGTTGCCA CCCTGAGCGA 
GAAGCAGAGC TGAGCCACCC TAGCTCTGAC AGTGAGGAAA ATGAGGCCAG AGGCCGGAGA 
GCTGCCAATC CGATATCCTC TCAGGAGACT GAAAATGCAG ACAGAACCCT ATCCAACAAC 
ATCACAGTTC CCAAGATAGA GCGCGCCAAC AGCTACTCGG CAGAGGAGCC AAGCGCGCCA 
TATGCACATA CCAGAAAGAG CTTCTCCATC AGTGACAAGC TTGATAGACA GAGGAACACA 
GCAAGCCTCC GAAATCCCTT CCAGAGAAGT AAGTCCTCCA AGCCGGAGGG CCGAGGGGAC 
AGCGTATCCA TGAGAAGACT GTCTAGAACA TCGGCTTTTC ATAGCTTTGA GAGCAAGCAC 
AACTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001178491.1
CDS	1..5166
Translation	MGKKWRDAGEMERGCSDREGSAESRRRSRSASRGRFAESWKRLSSKQGSTKRSGLPAQQTPAQKSWIERAFYKRECVHIIPSTKDPHRCCCGRLIGQHVGLTPSISVLQNEKNESRLSRNDIQSEKWSISKHTQLSPTDAFGTIEFQGGGHSNKAMYVRVSFDTKPDLLLHLMTKEWQLELPKLLISVHGGLQNFELQPKLKQVFGKGLIKAAMTTGAWIFTGGVNTGVIRHVGDALKDHASKSRGKICTIGIAPWGIVENQEDLIGRDVVRPYQTMSNPMSKLTVLNSMHSHFILADNGTTGKYGAEVKLRRQLEKHISLQKINTRIGQGVPVVALIVEGGPNVISIVLEYLRDTPPVPVVVCDGSGRASDILAFGHKYSEEGGLINESLRDQLLVTIQKTFTYTRTQAQHLFIILMECMKKKELITVFRMGSEGHQDIDLAILTALLKGANASAPDQLSLALAWNRVDIARSQIFIYGQQWPVGSLEQAMLDALVLDRVDFVKLLIENGVSMHRFLTISRLEELYNTRHGPSNTLYHLVRDVKKGNLPPDYRISLIDIGLVIEYLMGGAYRCNYTRKRFRTLYHNLFGPKRPKALKLLGMEDDIPLRRGRKTTKKREEEVDIDLDDPEINHFPFPFHELMVWAVLMKRQKMALFFWQHGEEAMAKALVACKLCKAMAHEASENDMVDDISQELNHNSRDFGQLAVELLDQSYKQDEQLAMKLLTYELKNWSNATCLQLAVAAKHRDFIAHTCSQMLLTDMWMGRLRMRKNSGLKVILGILLPPSILSLEFKNKDDMPYMTQAQEIHLQEKEPEEPEKPTKEKDEEDMELTAMLGRNNGESSRKKDEEEVQSRHRLIPVGRKIYEFYNAPIVKFWFYTLAYIGYLMLFNYIVLVKMERWPSTQEWIVISYIFTLGIEKMREILMSEPGKLLQKVKVWLQEYWNVTDLIAILLFSVGMILRLQDQPFRSDGRVIYCVNIIYWYIRLLDIFGVNKYLGPYVMMIGKMMIDMMYFVIIMLVVLMSFGVARQAILFPNEEPSWKLAKNIFYMPYWMIYGEVFADQIDRKQVYDSHTPKSAPCGQNETREDGKTIQLPPCKTGAWIVPAIMACYLLVANILLVNLLIAVFNNTFFEVKSISNQVWKFQRYQLIMTFHERPVLPPPLIIFSHMTMIFQHVCCRWRKHESDPDERDYGLKLFITDDELKKVHDFEEQCIEEYFREKDDRFNSSNDERIRVTSERVENMSMRLEEVNEREHSMKASLQTVDIRLAQLEDLIGRMATALERLTGLERAESNKIRSRTSSDCTDAAYIVRQSSFNSQEGNTFKLQESIDPAGEETMSPTSPTLMPRMRSHSFYSVNVKDKGGIEKLESIFKERSLSLHRATSSHSVAKEPKAPAAPANTLAIVPDSRRPSSCIDIYVSAMDELHCDIDPLDNSMNILGLGEPSFSALAPSTAPSSSAYATLAPTDRPPSRSIDFEDLTSMDTRSFSSDYTHLPECQNPWDTDPPMYHTIERSKSSRYLATTPFLLEEAPIVKSHSFMFSPSRSYYANFGVPVKTAEYTSITDCIDTRCVNAPQAIADRATFPGGLGDKVEDLSCCHPEREAELSHPSSDSEENEARGRRAANPISSQETENADRTLSNNITVPKIERANSYSAEEPSAPYAHTRKSFSISDKLDRQRNTASLRNPFQRSKSSKPEGRGDSVSMRRLSRTSAFHSFESKHN

Target ORF information:

RefSeq Version	NM_001191562.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001191562.1

ORF Insert Sequence:

ATGGGCAAGA AGTGGAGGGA CGCGGGCGAG ATGGAGCGAG GCTGCTCTGA TCGCGAGGGC 
AGCGCGGAGA GCCGCCGGCG CAGCCGCAGC GCCAGCCGGG GCAGGTTTGC CGAGTCGTGG 
AAAAGGTTAA GTTCCAAGCA GGGGTCCACC AAGCGCTCGG GACTGCCAGC ACAGCAGACA 
CCGGCTCAGA AATCCTGGAT TGAAAGAGCA TTTTATAAAA GAGAATGTGT TCACATCATA 
CCCAGCACCA AAGACCCCCA TAGGTGTTGC TGTGGGCGCC TGATAGGCCA GCATGTCGGA 
CTCACTCCCA GTATCTCTGT GCTTCAGAAT GAGAAAAATG AGAGTCGCCT CTCCCGAAAT 
GACATCCAGT CTGAGAAGTG GTCTATCAGC AAACACACTC AGCTCAGCCC AACGGATGCT 
TTTGGGACTA TTGAGTTCCA AGGAGGCGGT CATTCCAACA AAGCCATGTA TGTCCGAGTA 
TCTTTTGATA CGAAACCTGA TCTCTTGCTA CACCTGATGA CCAAGGAATG GCAACTAGAG 
CTTCCCAAAC TTCTCATCTC TGTGCACGGA GGGCTGCAGA ACTTTGAACT CCAGCCCAAA 
CTCAAGCAAG TCTTCGGGAA AGGGCTCATC AAAGCAGCCA TGACAACTGG AGCCTGGATC 
TTCACTGGAG GGGTCAACAC AGGTGTCATC CGTCATGTGG GAGATGCCTT GAAGGACCAC 
GCATCTAAGT CTCGAGGGAA GATATGCACC ATAGGTATCG CACCCTGGGG AATTGTGGAA 
AACCAGGAAG ACCTGATCGG AAGAGATGTA GTCCGACCAT ACCAGACCAT GTCAAACCCT 
ATGAGCAAGC TCACGGTTCT CAACAGCATG CACTCCCACT TCATCCTGGC TGACAATGGG 
ACCACGGGAA AATACGGGGC CGAGGTGAAA CTCCGCAGAC AACTGGAAAA GCACATTTCA 
CTCCAGAAGA TAAACACAAG AATCGGTCAA GGGGTTCCAG TGGTGGCCCT CATCGTGGAA 
GGAGGACCCA ATGTGATCTC AATTGTTTTG GAATACCTTC GAGACACCCC TCCTGTACCA 
GTCGTGGTCT GCGATGGCAG TGGACGGGCA TCCGACATTC TGGCATTTGG GCATAAATAT 
TCAGAAGAAG GCGGTCTTAT CAATGAATCT TTGAGGGACC AGCTGTTGGT GACAATACAG 
AAGACCTTCA CATACACCCG CACCCAAGCC CAGCACCTGT TCATCATCCT CATGGAATGC 
ATGAAGAAGA AGGAATTGAT CACAGTGTTT CGAATGGGAT CAGAAGGCCA CCAGGACATT 
GATTTAGCTA TCCTGACAGC ACTACTCAAA GGAGCCAATG CATCCGCCCC AGACCAGCTG 
AGCTTAGCAT TAGCCTGGAA CAGAGTTGAC ATCGCTCGCA GCCAGATCTT TATTTACGGG 
CAGCAGTGGC CGGTAGGGTC CCTGGAGCAA GCCATGCTGG ATGCCCTAGT CCTGGACAGA 
GTGGACTTTG TGAAATTACT CATAGAAAAC GGAGTAAGCA TGCACCGTTT TCTCACCATC 
TCCAGACTAG AGGAACTGTA CAATACGAGA CATGGGCCCT CAAATACATT GTACCACTTG 
GTCAGGGATG TCAAAAAGGG AAACCTGCCC CCGGACTACA GAATCAGCCT GATAGACATT 
GGCCTGGTGA TCGAGTACCT GATGGGTGGG GCTTACCGCT GCAACTACAC ACGCAAGCGC 
TTTCGGACCC TCTACCACAA TCTCTTTGGC CCCAAAAGGC CCAAAGCCTT GAAACTGCTG 
GGAATGGAGG ATGATATTCC CTTGAGGAGA GGAAGAAAGA CAACTAAGAA ACGTGAGGAA 
GAGGTGGACA TAGACTTGGA TGACCCTGAG ATCAACCACT TCCCATTCCC TTTCCATGAG 
CTGATGGTGT GGGCTGTCCT CATGAAGAGG CAGAAGATGG CCCTGTTCTT CTGGCAGCAT 
GGAGAGGAGG CCATGGCTAA AGCCCTGGTG GCCTGCAAGC TCTGCAAAGC CATGGCCCAT 
GAGGCTTCTG AGAATGATAT GGTGGATGAC ATTTCCCAAG AGCTGAACCA CAACTCCAGG 
GACTTTGGCC AGCTGGCTGT GGAGCTTTTG GACCAGTCCT ACAAACAGGA TGAGCAGCTG 
GCCATGAAAC TGCTGACGTA TGAGTTGAAG AACTGGAGCA ATGCCACATG CCTGCAGCTG 
GCTGTGGCTG CCAAGCACCG TGACTTCATT GCACACACGT GCAGCCAGAT GTTACTTACC 
GACATGTGGA TGGGACGGCT CCGCATGCGA AAGAACTCAG GCCTCAAGGT AATTCTGGGA 
ATTCTACTTC CTCCTTCAAT TCTCAGCTTG GAGTTCAAGA ACAAAGATGA CATGCCCTAT 
ATGACTCAGG CCCAAGAAAT TCATCTCCAA GAGAAGGAGC CGGAGGAACC GGAGAAGCCT 
ACAAAGGAAA AAGATGAAGA GGACATGGAG CTAACAGCAA TGTTGGGACG AAACAATGGG 
GAGTCATCCA GAAAGAAAGA CGAAGAAGAA GTTCAAAGCA GGCATCGACT AATCCCTGTG 
GGCCGAAAAA TCTATGAGTT CTACAACGCA CCCATTGTGA AGTTCTGGTT CTACACTCTG 
GCGTACATTG GATACCTGAT GCTCTTCAAT TACATCGTGC TGGTGAAGAT GGAGCGCTGG 
CCTTCCACTC AGGAATGGAT CGTCATCTCC TACATCTTCA CTCTGGGAAT AGAGAAGATG 
AGAGAGATCC TGATGTCAGA GCCGGGCAAG CTGCTGCAGA AAGTCAAAGT GTGGCTGCAG 
GAGTACTGGA ACGTCACGGA CCTCATCGCC ATCCTCCTCT TCTCGGTGGG AATGATCCTT 
CGTCTTCAAG ACCAGCCCTT CAGGAGTGAC GGGAGGGTCA TCTACTGTGT GAACATCATT 
TATTGGTATA TCCGTTTACT AGACATCTTC GGCGTGAACA AGTATCTGGG CCCATACGTA 
ATGATGATTG GGAAAATGAT GATAGACATG ATGTACTTCG TCATCATTAT GCTGGTGGTG 
CTGATGAGCT TTGGGGTCGC CAGGCAAGCC ATTCTCTTTC CCAATGAGGA GCCATCTTGG 
AAACTGGCCA AGAATATCTT CTACATGCCT TATTGGATGA TTTATGGGGA AGTGTTTGCT 
GACCAGATAG ACCGTAAGCA AGTTTATGAT TCTCATACAC CAAAGTCAGC TCCCTGTGGA 
CAGAACGAGA CCCGAGAGGA TGGCAAGACA ATCCAGCTGC CCCCATGCAA GACAGGAGCA 
TGGATTGTGC CAGCCATCAT GGCCTGCTAC CTCTTAGTAG CGAACATCCT TCTGGTCAAC 
CTCCTTATTG CTGTCTTCAA CAATACATTT TTTGAGGTCA AGTCGATATC CAACCAAGTA 
TGGAAATTTC AGAGGTACCA GCTCATCATG ACTTTCCATG AGAGACCAGT TCTGCCTCCA 
CCGCTCATCA TCTTCAGTCA CATGACCATG ATATTCCAGC ATGTGTGCTG CCGATGGAGG 
AAGCATGAGA GTGACCCGGA TGAAAGGGAC TACGGCCTGA AACTCTTCAT AACTGATGAT 
GAGCTCAAGA AAGTACATGA TTTTGAAGAG CAGTGCATAG AGGAATATTT CAGAGAGAAG 
GATGACCGCT TCAATTCATC CAATGATGAG AGGATACGGG TTACGTCAGA AAGGGTGGAG 
AACATGTCCA TGAGGCTGGA GGAAGTCAAT GAGAGAGAAC ATTCCATGAA GGCTTCACTC 
CAGACTGTGG ACATCCGGCT AGCACAGCTG GAGGATCTCA TCGGGCGCAT GGCCACTGCC 
CTGGAGCGCC TAACAGGTCT GGAGCGGGCA GAGTCTAACA AAATCCGCTC AAGGACCTCC 
TCAGACTGCA CAGACGCAGC CTACATCGTC CGCCAGAGCA GCTTCAACAG TCAGGAAGGG 
AACACCTTCA AACTTCAAGA GAGTATAGAC CCTGCAGGTG AGGAGACCAT GTCCCCAACT 
TCTCCAACCT TAATGCCCCG TATGCGAAGC CATTCTTTCT ATTCGGTCAA TGTGAAAGAC 
AAAGGTGGTA TAGAAAAGTT GGAGAGCATT TTCAAAGAAA GGTCCCTGAG CTTACACCGT 
GCTACTAGCT CCCACTCAGT AGCCAAGGAG CCCAAAGCTC CTGCAGCCCC TGCAAACACC 
TTGGCCATTG TTCCTGATTC CAGAAGACCA TCGTCATGCA TAGACATCTA TGTCTCTGCC 
ATGGATGAGC TCCACTGTGA TATAGACCCT CTGGATAATT CCATGAACAT CCTTGGGCTG 
GGCGAGCCAA GCTTTTCAGC TCTAGCACCT TCCACAGCCC CTTCAAGCAG TGCCTATGCA 
ACCCTTGCAC CTACAGACCG ACCTCCAAGC AGGAGCATTG ATTTTGAAGA CCTCACCTCC 
ATGGACACTA GATCTTTTTC TTCAGACTAT ACCCACCTCC CAGAATGCCA AAACCCCTGG 
GACACAGACC CTCCAATGTA CCATACCATC GAGCGTTCCA AGAGTAGCCG CTACCTAGCC 
ACTACACCCT TCCTTCTGGA AGAGGCCCCC ATTGTAAAAT CCCATAGCTT TATGTTTTCT 
CCTTCAAGGA GTTACTACGC CAACTTTGGG GTGCCCGTGA AAACAGCAGA ATACACAAGT 
ATTACAGACT GTATCGACAC AAGATGTGTC AATGCCCCCC AAGCAATAGC TGACAGAGCC 
ACCTTCCCCG GAGGTCTCGG AGACAAAGTG GAAGATTTAT CTTGTTGCCA CCCTGAGCGA 
GAAGCAGAGC TGAGCCACCC TAGCTCTGAC AGTGAGGAAA ATGAGGCCAG AGGCCGGAGA 
GCTGCCAATC CGATATCCTC TCAGGAGACT GAAAATGCAG ACAGAACCCT ATCCAACAAC 
ATCACAGTTC CCAAGATAGA GCGCGCCAAC AGCTACTCGG CAGAGGAGCC AAGCGCGCCA 
TATGCACATA CCAGAAAGAG CTTCTCCATC AGTGACAAGC TTGATAGACA GAGGAACACA 
GCAAGCCTCC GAAATCCCTT CCAGAGAAGT AAGTCCTCCA AGCCGGAGGG CCGAGGGGAC 
AGCGTATCCA TGAGAAGACT GTCTAGAACA TCGGCTTTTC ATAGCTTTGA GAGCAAGCAC 
AACTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PubMed

Pregnenolone sulfate activates basic region leucine zipper transcription factors in insulinoma cells: role of voltage-gated Ca2+ channels and transient receptor potential melastatin 3 channels.
Molecular pharmacology80(6)1179-89(2011 Dec)
M?ller I,R?ssler OG,Thiel G

Activation of steroid-sensitive TRPM3 channels potentiates glutamatergic transmission at cerebellar Purkinje neurons from developing rats.
Journal of neurochemistry119(3)474-85(2011 Nov)
Zamudio-Bulcock PA,Everett J,Harteneck C,Valenzuela CF

Signal transduction of pregnenolone sulfate in insulinoma cells: activation of Egr-1 expression involving TRPM3, voltage-gated calcium channels, ERK, and ternary complex factors.
The Journal of biological chemistry286(12)10084-96(2011 Mar)
Mayer SI,M?ller I,Mannebach S,Endo T,Thiel G

TRPM3 is expressed in sphingosine-responsive myelinating oligodendrocytes.
Journal of neurochemistry114(3)654-65(2010 Aug)
Hoffmann A,Grimm C,Kraft R,Goldbaum O,Wrede A,Nolte C,Hanisch UK,Richter-Landsberg C,Br?ck W,Kettenmann H,Harteneck C

Transient receptor potential M3 channels are ionotropic steroid receptors in pancreatic beta cells.
Nature cell biology10(12)1421-30(2008 Dec)
Wagner TF,Loch S,Lambert S,Straub I,Mannebach S,Mathar I,D?fer M,Lis A,Flockerzi V,Philipp SE,Oberwinkler J

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Trpm3 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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