FREM1 (NM_144966) Human Untagged Clone

CAT#: SC306199

FREM1 (untagged)-Human FRAS1 related extracellular matrix 1 (FREM1), transcript variant 1



  "NM_144966" in other vectors (4)

CNY 41,990.00


货期*
5周

规格
    • 10 ug

Product images

经常一起买 (4)
Rabbit Polyclonal FREM1 Antibody
    • 100 ug

CNY 5,808.00


TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


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

CNY 480.00

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms BNAR; C9orf143; C9orf145; C9orf154; MOTA; TILRR; TRIGNO2
Vector pCMV6-XL5
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
>OriGene sequence for NM_144966 edited
GACTCTTATCCTGCCCGCCAGTTCCAAGGGTTTCTAACTTTTTGTCTTGGAAAGGAAAAC
CACTACCTGATTAGAAAAGCACTTGGGAAGCCCATTAATCTTGCCGGCGTTGTCAGGAGT
GATCAGCGAGTTTTATTAAAAGCCCTGGGATTGCCTGAAAGGCCCCCTTGTCTGACTTTG
AAATGAAAGGGGCATGTTAAGATCTCGGGGCACATTGTCAGGACCCCTCACCCTGCCCCT
TGGACTATGAGCTGACCCTCCAGGAGGAAGCACAGAAGCCCTCCTTTGTTAAAGGGATTT
CGCCGGTGGACAGAGAAGAGTTGGGCCCTGTCAGCATGAACTCTCTGAGTTGGGGGGCTG
CGAATGCCGTGCTGCTGCTGCTCCTCCTGGCCTGGGCCAGCCCCACCTTCATCAGCATCA
ACCGCGGGGTGAGGGTGATGAAGGGCCACTCTGCCTTCCTGTCAGGAGATGACCTGAAGT
TTGCCATCCCTAAAGAGAAAGATGCCTGCAAAGTGGAAGTTGTGATGAATGAGCCAATAA
CCCAGAGGGTTGGGAAACTCACTCCACAGGTCTTTGACTGCCATTTCCTTCCCAACGAAG
TCAAGTATGTTCACAATGGTTGTCCAATTCTTGATGAAGACACAGTGAAGCTCAGACTTT
ACAGATTTACTGAAAGAGATACCTTCATAGAAACTTTTATCCTGTGGGTCTATCTCCTGG
AACCAGACTGTAACATCATCCATATGAGTAACAATGTGCTGGAGGTGCCTGAATTCAATG
GCTTGTCCCAAGCGATTGATAAAAATCTGCTCAGATTCGATTATGATAGGATGGCTAGCC
TGGAATGTACCGTCAGCCTGGACACTGCGAGAACTCGGCTGCCAGCCCATGGCCAGATGG
TTCTCGGGGAGCCTCGACCAGAAGAACCTCGTGGAGATCAGCCACACAGTTTTTTCCCAG
AGTCCCAACTGAGAGCAAAACTGAAGTGTCCAGGTGGGAGCTGTACCCCAGGATTAAAGA
AAATAGGAAGCCTCAAAGTGAGCTGTGAGGAGTTCCTGCTGATGGGCCTTCGTTATCAGC
ATCTGGATCCCCCTTCACCCAACATTGATTATATCTCCATCCAACTGGACCTCACAGATA
CCAGGAGCAAAATTGTGTACAAGTCAGAGAGTGCGTGGCTGCCTGTCTATATCAGAGCTG
GAATTCCGAATCAGATTCCAAAGGCTGCATTCATGGCCGTGTTTATTCTGGAAGTGGATC
AGTTCATCCTGACCTCCTTGACTACATCAGTTCTGGACTGTGAAGAAGATGAGACCCCTA
AACCCTTGCTGGTGTTCAACATTACTAAAGCCCCGCTCCAGGGCTATGTGACTCACCTGT
TGGATCACACCAGACCAATCTCCTCATTCACCTGGAAAGATCTCAGTGACATGCAGATCG
CCTATCAGCCACCAAACAGCAGCCATTCTGAGAGGAGACATGATGAGGTAGAATTGGAGG
TATACGACTTCTTCTTTGAAAGGAGTGCACCTATGACAGTCCACATCTCCATCAGAACAG
CAGATACAAATGCCCCCCGTGTATCCTGGAATACAGGTCTGAGTCTCCTTGAGGGGCAGT
CTCGAGCCATCACTTGGGAACAGTTTCAGGTTGTCGACAATGACGACATTGGTGCTGTCC
GGCTAGTCACCGTTGGTGGCCTGCAGCATGGATGGCTGACTTTAAGAGGGGGGAAAGGGT
TTCTCTTCACCGTGGCTGACCTCCAGGCTGGAGTTGTTCGCTATCATCATGATGACAGCG
ACTCCACCAAAGACTTCGTGGTCTTCCGGATATTTGATGGCCATCACAGCATCCGTCACA
AATTCCCCATCAACGTCTTGCCCAAAGATGATAGTCCCCCGTTCCTCATAACCAATGTTG
TGATTGAACTGGAGGAGGGGCAGACCATCCTGATCCAGGGATCCATGCTGCGAGCTTCAG
ATGTGGACGCCAGTGATGACTACATCTTCTTCAATATCACAAAGCCTCCACAGGCTGGGG
AGATCATGAAGAAGCCAGGGCCAGGACTGATAGGCTATCCTGTCCATGGCTTCCTTCAGA
GGGATTTGTTTAATGGAATCATTTATTATCGTCATTTTGGTGGAGAAATCTTTGAAGATT
CTTTTCAATTTGTCCTGTGGGACAGCCATGAACCTCCAAATCTTTCAGTGCCACAGGTGG
CAACAATCCATATAACTCCAGTGGATGACCAGCTTCCAAAAGAGGCTCCTGGAGTTTCTC
GGCATTTGGTTGTCAAGGAAACTGAGGTGGCCTATATAACTAAGAAACAGCTACATTTTA
TAGATTCAGAATCATATGACAGGGAGCTGGTCTACACAATAACTACTCCTCCATTTTTCT
CCTTCAGCCACAGACACTTGGATGCTGGGAAATTATTTATGGTGGACAGCATACCAAAAG
TAGTTAAGAATCCTACGGCCCTGGAGCTGAGGTCATTCACTCAGCATGCTGTGAACTATA
TGAAAGTGGCCTACATGCCCCCCATGCAAGACATTGGTCCCCATTGCAGAGATGTCCAGT
TCACATTTTCTGTCAGTAACCAACATGGCGGTACTTTGCATGGGATCTGCTTTAACATTA
CAATCCTCCCAGTGGACAATCAAGTTCCTGAGGCGTTCACCAACCCTCTGAAAGTGACTG
AGGGAGGTCAAAGCATCATCAGCACAGAGCACATTCTAATTTCTGATGCAGATACCAAGC
TGGACAATATTGACCTCTCCCTGCGGGAATTGCCTCTGCACGGAAGGGTGGAGCTGAATG
GATTTCCTCTAAATTCAGGGGGCACATTTTCTTGGGGCGATCTCCATACCTTAAAAGTTA
GGTATCAACATGATGGAACTGAAGTTCTTCAGGATGACCTACTCTTGGAGGTCACCGATG
GCACAAATTCAGCAGAATTTGTACTACATGTTGAGGTATTCCCTGTCAACGATGAGCCAC
CAGTCTTAAAGGCTGACCTCATGCCTGTCATGAATTGCTCAGAGGGAGGAGAGGTGGTCA
TCACCTCTGAATACATTTTTGCTACTGATGTGGACAGCGATAACTTGAAGTTGATGTTTG
TGATTGCTCGCGAACCTCAGCATGGGGTGGTGAGGAGAGCTGGAGTCACAGTGGATCAGT
TCTCTCAGAGAGATGTTATCTCAGAGGCCGTGACATACAAACACACAGGTGGCGAGATTG
GCCTGATGCCTTGTTTTGACACCATTACATTGGTGGTTTCGGATGGAGAGGCTGGCCCTT
TTGTGAATGGCTGTTGCTACAATGGACCCAATCCATCTGTTCCACTTCATGCGTCCTTTC
CAGTGTATGATCTCAACATCACGGTATACCCAGTAGACAACCAGCCACCTTCCATTGCAA
TAGGTCCCGTGTTTGTTGTAGATGAGGGCTGCTCAACAGCCCTTACTGTTAACCATTTGT
CCGCCACTGACCCTGACACTGCAGCAGATGACTTGGAATTTGTTTTGGTTTCTCCTCCTC
AGTTTGGCTACCTCGAAAATATACTCCCTTCTGTGGGTTTTGAAAAAAGCAATATTGGCA
TAAGTATAGATTCATTTCAGTGGAAAGACATGAACGCTTTTCACATTAACTATGTGCAGT
CCAGGCATCTGAGGATAGAACCAACTGCCGACCAGTTCACGGTGTACGTCACAGATGGGA
AGCATCACTCCTTGGAGATACCATTTTCTATTATAATCAACCCCACAAATGATGAAGCTC
CTGACTTTGTAGTGCAGAATATTACTGTGTGTGAGGGTCAGATGAAAGAGCTGGACTCTT
CCATCATCAGCGCTGTGGACCTGGACATTCCCCAGGATGCCCTGCTGTTCAGCATCACTC
AAAAGCCACGCCATGGCCTCCTCATCGATAGGGGGTTTAGCAAAGACTTCTCTGAGAATA
AGCAGCCAGCCAACCCTCACCAGAAACATGCACCTGTTCACAGCTTTTCCATGGAACTCC
TCAAGACTGGAATGAGGTTGACGTACATGCATGATGACTCAGAGAGCCTTGCTGATGATT
TTACAATCCAATTGTCAGATGGGAAACATAAGATACTTAAAACCATTTCAGTAGAGGTCA
TCCCAGTTAATGATGAAAAACCAATGCTGAGCAAGAAGGCTGAAATTGCAATGAATATGG
GTGAAACTCGTATTATTTCCAGTGCTATTCTTTCAGCCATAGATGAAGACTCACCCAGGG
AGAAGATTTACTATGTATTTGAAAGGCTTCCCCAAAATGGGCAACTTCAGCTTAAGATAG
GGAGGGACTGGGTTCCTCTCTCCCCTGGCATGAAATGCACTCAGGAGGAAGTGGATCTGA
ACTTGCTGAGATACACACACACCGGGGCAATGGATTCCCAGAATCAAGATAGCTTCACCT
TCTACCTTTGGGATGGCAACAACAGGTCCCCTGCTCTTGACTGTCAAATCACCATCAAGG
ACATGGAAAAAGGTGATATTGTCATCCTTACAAAACCACTCGTGGTGTCTAAAGGTGATA
GAGGTTTCTTAACAACCAGCACGCTCCTGGCTGTGGACGGAACAGACAAGCCTGAGGAAC
TGCTCTATGTCATCACCTCCCCTCCGCGATATGGCCAGATCGAATATGTTCACTATCCTG
GAGTTCCCATTACAAACTTCAGCCAAATGGATGTAGTGGGGCAGACAGTTTGCTATGTAC
ACAAGAGCAAGGTGACTGTCTCCAGTGACAGATTCAGATTCATCATCAGCAATGGACTGC
GGACCGAGCACGGGGTGTTTGAGATCACACTGGAGACTGTGGACAGAGCCCTGCCTGTGG
TAACCAGGAACAAGGGGTTGAGACTGGCCCAAGGGGCCGTGGGCCTGCTTTCCCCTGACC
TCCTTCAGCTGACCGACCCTGATACACCTGCGGAGAACCTCACCTTCCTCTTGGTTCAGC
TCCCCCAGCATGGCCAGCTCTACCTGTGGGGGACAGGGCTACTTCAACACAATTTCACCC
AGCAGGATGTGGACAGCAAGAATGTGGCCTATCGGCACTCAGGAGGGGACTCCCAGACTG
ACTGCTTTACTTTCATGGCCACAGACGGGACAAACCAAGGCTTTATTGTGAATGGGAGAG
TGTGGGAAGAACCTGTTTTATTCACCATTCAGGTAGACCAATTGGACAAAACAGCTCCTC
GTATCACACTCTTGCATTCCCCTTCTCAAGTGGGGCTCCTGAAAAATGGCTGCTACGGGA
TTTACATCACTTCCCGCGTGTTGAAGGCATCAGACCCTGACACTGAGGACGATCAGATCA
TCTTTAAAATTCTACAAGGCCCAAAACATGGACATCTGGAGAACACAACAACAGGTGAAT
TTATCCATGAGAAATTTAGCCAAAAGGACTTAAACAGTAAGACTATTCTTTACATCATAA
ACCCATCTTTGGAAGTAAATTCAGATACCGTGGAATTTCAAATCATGGACCCCACAGGGA
ACTCGGCCACTCCTCAAATTTTGGAACTGAAGTGGTCTCATATTGAATGGTCACAGACCG
AATATGAAGTCTGTGAGAATGTGGGTTTGTTGCCCTTGGAAATTATCAGAAGGGGATATT
CCATGGACTCGGCCTTTGTGGGTATAAAGGTCAACCAAGTGTCAGCTGCAGTTGGAAAAG
ATTTCACCGTGATTCCATCTAAACTGATTCAGTTTGACCCAGGAATGTCAACTAAGATGT
GGAATATAGCAATTACCTATGACGGATTAGAGGAAGATGATGAGGTCTTTGAAGTAATTC
TGAACTCCCCTGTGAATGCAGTTCTTGGCACAAAGACAAAAGCTGCAGTGAAAATTTTGG
ACTCAAAAGGAGGACAATGCCATCCTTCATATTCCTCCAACCAAAGCAAGCACAGCACAT
GGGAGAAGGGCATTTGGCATCTGCTGCCCCCAGGGTCTTCCTCATCCACCACTTCTGGTT
CCTTTCATCTGGAAAGAAGACCTCTTCCATCTTCCATGCAGCTAGCAGTCATCAGGGGAG
ACACCCTGCGGGGCTTTGATTCTACAGATCTTTCTCAAAGGAAGCTTAGGACCCGTGGGA
ATGGCAAAACAGTTCGTCCATCCTCTGTTTATAGAAATGGAACAGACATCATCTATAATT
ATCATGGGATAGTTTCCTTGAAACTGGAGGATGACAGTTTCCCAACTCACAAAAGGAAGG
CCAAAGTATCCATCATTAGTCAGCCACAAAAGACAATCAAAGTGGCAGAACTGCCTCAAG
CAGATAAGGTGGAATCCACAACTGACTCACACTTCCCCAGACAGGACCAGTTGCCCTCAT
TTCCAAAGAACTGCACTCTGGAATTAAAGGGACTCTTCCATTTTGAAGAAGGCATCCAGA
AGCTGTATCAGTGCAATGGGATCGCCTGGAAAGCCTGGAGTCCCCAAACCAAGGATGTGG
AAGACAAATCCTGTCCAGCCGGGTGGCACCAGCACTCAGGCTACTGTCACATCTTGATCA
CAGAGCAGAAAGGCACCTGGAATGCGGCTGCCCAAGCTTGCAGGGAACAATACCTGGGCA
ACCTTGTAACTGTATTCTCCAGGCAGCACATGCGGTGGCTCTGGGACATTGGTGGGAGAA
AGTCCTTTTGGATAGGTTTGAACGACCAAGTGCATGCTGGCCACTGGGAGTGGATCGGTG
GTGAACCTGTTGCCTTCACCAATGGGAGAAGAGGGCCCTCTCCACGCTCCAAGCTTGGAA
AGAGCTGTGTTTTGGTTCAAAGACAAGGGAAATGGCAAACAAAAGACTGTAGGAGAGCCA
AACCTCATAATTATGTGTGTTCCAGAAAACTCTAAATATAACAGACCCTACAGGGGGCCA
CCTGGAGTTTGTCACCTATTTATTCACAGGATCTGTGAATATTGCTCCATAGAAAACAAA
TTGTTATGATTGAGTGGGTATACCTTTGTGATTCTGTCTAGTGAAAATGGGACATTTTTA
ATAGTGCCAGAAAGATTGATAAATAAATATTTTTTACAAGATAAAAAA
Restriction Sites Please inquire     
ACCN NM_144966
Insert Size 7400 bp
OTI Disclaimer Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
OTI Annotation The ORF of this clone has been fully sequenced and found three SNPs within the protein associated with this reference, NM_144966.4.
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_144966.3, NP_659403.3
RefSeq Size 6200 bp
RefSeq ORF 4008 bp
Locus ID 158326
UniProt ID Q5H8C1
Protein Families Protease, Transmembrane
Gene Summary This gene encodes a basement membrane protein that may play a role in craniofacial and renal development. Mutations in this gene have been associated with bifid nose with or without anorectal and renal anomalies. Alternatively spliced transcript variants encoding different isoforms have been described. PubMed ID 19940113 describes one such variant that initiates transcription within a distinct, internal exon; the resulting shorter isoform (named Toll-like/interleukin-1 receptor regulator, TILRR) is suggested to be a co-receptor of the interleukin 1 receptor family and may regulate receptor function and Toll-like receptor/interleukin 1 receptor signal transduction, contributing to the control of inflammatory response activation. [provided by RefSeq, Apr 2011]
Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.
*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.

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