| Gene Symbol |
mad1l1 |
| Entrez Gene ID |
393886 |
| Full Name |
mitotic arrest deficient 1 like 1 |
| Synonyms |
zgc:56571 |
| General protein information |
- Preferred Names
mitotic arrest deficient 1 like 1
Names
mitotic spindle assembly checkpoint protein MAD1
MAD1 mitotic arrest deficient-like 1
mitotic arrest deficient-like protein 1
|
| Gene Type |
protein-coding |
| Organism |
Danio rerio(zebrafish) |
mRNA and Protein(s)
| mRNA |
Protein |
Name |
| NM_200912.2 |
NP_957206.2 |
mitotic spindle assembly checkpoint protein MAD1 |
| Pan troglodytes (chimpanzee) |
MAD1L1 |
XP_518933.2 |
| Bos taurus (cattle) |
MAD1L1 |
NP_001095514.1 |
| Gallus gallus (chicken) |
MAD1L1 |
XP_004945193.1 |
|
MAD1L1 |
XP_001102100.1 |
| Canis lupus familiaris (dog) |
MAD1L1 |
XP_852066.2 |
| Mus musculus (house mouse) |
Mad1l1 |
NP_034882.2 |
| Drosophila melanogaster (fruit fly) |
Mad1 |
NP_610477.2 |
| Homo sapiens (human) |
MAD1L1 |
NP_001013858.1 |
| Rattus norvegicus (Norway rat) |
Mad1l1 |
NP_001102857.1 |
| Danio rerio (zebrafish) |
mad1l1 |
NP_957206.2 |
| Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP006632 |
XP_316663.4 |
| Xenopus tropicalis (tropical clawed frog) |
mad1l1 |
NP_001006927.1 |
Related articles in PubMed
Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database.
Pasquier J, Cabau C, Nguyen T, Jouanno E, Severac D, Braasch I, Journot L, Pontarotti P, Klopp C, Postlethwait JH, Guiguen Y, Bobe J
BMC genomics17368(2016 05)
RFX transcription factors are essential for hearing in mice.
Elkon R, Milon B, Morrison L, Shah M, Vijayakumar S, Racherla M, Leitch CC, Silipino L, Hadi S, Weiss-Gayet M, Barras E, Schmid CD, Ait-Lounis A, Barnes A, Song Y, Eisenman DJ, Eliyahu E, Frolenkov GI, Strome SE, Durand B, Zaghloul NA, Jones SM, Reith W, Hertzano R
Nature communications68549(2015 Oct)
Global identification of SMAD2 target genes reveals a role for multiple co-regulatory factors in zebrafish early gastrulas.
Liu Z, Lin X, Cai Z, Zhang Z, Han C, Jia S, Meng A, Wang Q
The Journal of biological chemistry286(32)28520-32(2011 Aug)
Inhibition of Plk1 induces mitotic infidelity and embryonic growth defects in developing zebrafish embryos.
Jeong K, Jeong JY, Lee HO, Choi E, Lee H
Developmental biology345(1)34-48(2010 Sep)
Regulation of cytochrome P450 expression in a novel liver cell line from zebrafish (Brachydanio rerio).
Miranda CL, Collodi P, Zhao X, Barnes DW, Buhler DR
Archives of biochemistry and biophysics305(2)320-7(1993 Sep)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following mad1l1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mad1l1 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 |
ODa36029 |
| Clone ID Related Accession (Same CDS sequence) |
NM_200912.2
|
| Accession Version |
NM_200912.2 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 2154bp)
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 |
2018-11-23 |
| Organism |
Danio rerio(zebrafish) |
| Product |
mitotic spindle assembly checkpoint protein MAD1 |
| Comment |
Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX927386.11 and BX649473.9. On Jul 17, 2010 this sequence version replaced NM_200912.1.
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.
##Evidence-Data-START##
Transcript exon combination :: GDQH01019544.1, GFIL01025728.1 [ECO:0000332]
RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350]
##Evidence-Data-END##
|
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
| ATGGACGATA TAGAGGATGA CACCACAATC TTCTCAACGC TTAAATCTTT CAAGAGTTTA
ATATCATGCC CAGAACGTTC CTTGCTGGAA ACTGAGCCAG CCTATGGAAG AAGTGACCTT
CAGAAGCTCT ATACTAAAAG AGTGGAGTTG GAGGAGGCTG CCGAGCGCGT TCGTTCCCAC
ACCAGCCTGA TTCAGCTCAC TCAAGAGAAA CAACAGATGG AGCTGAGTCA CAAACGAGCC
CGCATAGAGC TGGAGAAAGA GGCGCACAGC AGCTCCAGAG ACTTACAGAG GGAAATTGAC
CGTAACAGGG ACTTGCAGAT GAAGATCAGA CGTCTGGAAG AAAGAGAAGA GAAAGCAAAT
CAAGCCCTTA ATGAACAAAT GGAAAACAAC AAAGCTTTAA AGCGCAACCT CGAGGAACTC
CACAAGAAAG CAAATGAAAA GGACAGCAAA CTTACCGAGG CAGAGCAGAT TATCAGTGAG
TTGAAAGATG AGACGAGAAG GCTCGGTCAG CAGATCCAGA TTCAGGAGTC TAAATTCTCC
ACCCAGAACC TGGAGATCCA GGCCTTGCAG GAACAACTGG ATGTGCAGCG CAAGAAGTTT
CAGGACATCA GTCAGAAGTA CCAAAATCTG CAGTCCTCTC ATTCAACCAG CACAGAGAGC
GAACTCAAGA TGAAGGAGTT GGAGAGGCGT TTGGCTCTTC AGGAACAGGA CTCCGTGATT
GTGAAGAACA TGAAATCTGA AGTGGCCAGA CTGCCTGAAA TGGAGCGGGA AATTAAACGT
CTGCGTGAGG AAAACTCTTT CTTAAGGGAG ACAAAAGAGA ACAACAGTTT GCTGAAGGAA
GAGACCGAGG GCTTGAGGAG GAAGCTGGAG AGGCTGGAGA AAGTGATGGA GGAGAAAATC
AAAGTGGAGT TGGAGAAAGA GAAAATGGAA CGCGAGCTGC AGGCTTGGGA AAACATTGGC
CAGGCTACAG GACTTAATAT TAGGAAACCT GAGGATTTAT CCAGGGAGGT GATACAGATT
CAGCAGCGAG AACTGAACTT CAAACAGCAG AACTATAGCC TCAATAGCAG TGTTCGCTCT
GTGGAAAAGG CCCGCTCTGA GCTCCTGACC GAGATTGCTC AGCTGCGCGC CAAGGCTCAA
GAAGAACAGA AGAAACGAGA GAACCAGGAC TCACTGGTCC GTCGCTTGCA GAAGAGAGTC
TTACTGCTCA CCAAGGAGCG CGATGGAATG AGGGCCATAT TAGAGTCGTA CGACAGCGAG
CTGGCCACAA GTGAATACTC TCCTCAGCTC ACACTCCGGG TCAAGGAGGC AGAGGACATG
CTGCAGAAAG TCCAGGCTCA TAATGCAGAG ATGGAGACTC AACTGTCCAA AGCCCAGGAG
GAGGCTGGCT CCTTCAAATT ACAAGCTCAG ATGGTGGCTG CTGAACTTGA GGCTCTGAAA
GAGCAGCAGG TGTCTAATGC CGAGAGAAGC AGCTCAGTGA CAGCAGAGGA AATCAGCTCT
CTCAGGCAGA AGATTGAGGA GTTGGAAGCA GAACGTCAGC GTTTGGAAGA GCAAAATAAC
ATTCTGGAGA TGAGACTAGA GAGGCATAAC CTCCAGGGAG ACTACGACCC TGTTAAGACG
AAGGTGGTCC ACCTGCAGAT GAACCCCACC AGCATGGCAA AGCAGCAGCG GGCGGATGAG
GTGGAGCAGC TCAGGGTGGA GTGTCAGCGT TTGAGGGACC GACTCCGCAA AATCGAAGTG
GCTGGTGGCA TGACAACAGA TGACACTACC CTCATCATCC CACCGTCACA GGAAATACTG
GACCTGCGTA AGCAAATGGA AAGTGCAGAA CTGAAGAACC AGCGCTTGAA GGAGGTGTTT
CAGAAGAAGA TTCAAGAGTT TCGTACTGCA TGCTACGTCC TGACTGGGTA CCAGATCGAC
ATCACTGTGG AGAACCAGTA CCGGCTCACT TCCGTCTACG CCGAGCATAT GGAGGATTCA
TTACTGTTTA AGTCTACTGG TCCAGTGGGT AGCGGCAGCA TGCAGCTGTT GGAGACGGAT
TTCTCCCGCA CTCTAACTGG ACTGGTAGAT CTGCACCTCT TCCATCAGAA GAGCATCCCC
GTGTTCCTCA GCGCGGTCAC CATCGAGCTG TTCAGCCGCC AGACTGTCGC CTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
NP_957206.2 |
| CDS | 107..2260 |
| Translation | |
Target ORF information:
| RefSeq Version | NM_200912.2 |
| Organism | Danio rerio(zebrafish) |
| Definition | Danio rerio mitotic arrest deficient 1 like 1 (mad1l1), mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
 NM_200912.2 |
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
| ATGGACGATA TAGAGGATGA CACCACAATC TTCTCAACGC TTAAATCTTT CAAGAGTTTA
ATATCATGCC CAGAACGTTC CTTGCTGGAA ACTGAGCCAG CCTATGGAAG AAGTGACCTT
CAGAAGCTCT ATACTAAAAG AGTGGAGTTG GAGGAGGCTG CCGAGCGCGT TCGTTCCCAC
ACCAGCCTGA TTCAGCTCAC TCAAGAGAAA CAACAGATGG AGCTGAGTCA CAAACGAGCC
CGCATAGAGC TGGAGAAAGA GGCGCACAGC AGCTCCAGAG ACTTACAGAG GGAAATTGAC
CGTAACAGGG ACTTGCAGAT GAAGATCAGA CGTCTGGAAG AAAGAGAAGA GAAAGCAAAT
CAAGCCCTTA ATGAACAAAT GGAAAACAAC AAAGCTTTAA AGCGCAACCT CGAGGAACTC
CACAAGAAAG CAAATGAAAA GGACAGCAAA CTTACCGAGG CAGAGCAGAT TATCAGTGAG
TTGAAAGATG AGACGAGAAG GCTCGGTCAG CAGATCCAGA TTCAGGAGTC TAAATTCTCC
ACCCAGAACC TGGAGATCCA GGCCTTGCAG GAACAACTGG ATGTGCAGCG CAAGAAGTTT
CAGGACATCA GTCAGAAGTA CCAAAATCTG CAGTCCTCTC ATTCAACCAG CACAGAGAGC
GAACTCAAGA TGAAGGAGTT GGAGAGGCGT TTGGCTCTTC AGGAACAGGA CTCCGTGATT
GTGAAGAACA TGAAATCTGA AGTGGCCAGA CTGCCTGAAA TGGAGCGGGA AATTAAACGT
CTGCGTGAGG AAAACTCTTT CTTAAGGGAG ACAAAAGAGA ACAACAGTTT GCTGAAGGAA
GAGACCGAGG GCTTGAGGAG GAAGCTGGAG AGGCTGGAGA AAGTGATGGA GGAGAAAATC
AAAGTGGAGT TGGAGAAAGA GAAAATGGAA CGCGAGCTGC AGGCTTGGGA AAACATTGGC
CAGGCTACAG GACTTAATAT TAGGAAACCT GAGGATTTAT CCAGGGAGGT GATACAGATT
CAGCAGCGAG AACTGAACTT CAAACAGCAG AACTATAGCC TCAATAGCAG TGTTCGCTCT
GTGGAAAAGG CCCGCTCTGA GCTCCTGACC GAGATTGCTC AGCTGCGCGC CAAGGCTCAA
GAAGAACAGA AGAAACGAGA GAACCAGGAC TCACTGGTCC GTCGCTTGCA GAAGAGAGTC
TTACTGCTCA CCAAGGAGCG CGATGGAATG AGGGCCATAT TAGAGTCGTA CGACAGCGAG
CTGGCCACAA GTGAATACTC TCCTCAGCTC ACACTCCGGG TCAAGGAGGC AGAGGACATG
CTGCAGAAAG TCCAGGCTCA TAATGCAGAG ATGGAGACTC AACTGTCCAA AGCCCAGGAG
GAGGCTGGCT CCTTCAAATT ACAAGCTCAG ATGGTGGCTG CTGAACTTGA GGCTCTGAAA
GAGCAGCAGG TGTCTAATGC CGAGAGAAGC AGCTCAGTGA CAGCAGAGGA AATCAGCTCT
CTCAGGCAGA AGATTGAGGA GTTGGAAGCA GAACGTCAGC GTTTGGAAGA GCAAAATAAC
ATTCTGGAGA TGAGACTAGA GAGGCATAAC CTCCAGGGAG ACTACGACCC TGTTAAGACG
AAGGTGGTCC ACCTGCAGAT GAACCCCACC AGCATGGCAA AGCAGCAGCG GGCGGATGAG
GTGGAGCAGC TCAGGGTGGA GTGTCAGCGT TTGAGGGACC GACTCCGCAA AATCGAAGTG
GCTGGTGGCA TGACAACAGA TGACACTACC CTCATCATCC CACCGTCACA GGAAATACTG
GACCTGCGTA AGCAAATGGA AAGTGCAGAA CTGAAGAACC AGCGCTTGAA GGAGGTGTTT
CAGAAGAAGA TTCAAGAGTT TCGTACTGCA TGCTACGTCC TGACTGGGTA CCAGATCGAC
ATCACTGTGG AGAACCAGTA CCGGCTCACT TCCGTCTACG CCGAGCATAT GGAGGATTCA
TTACTGTTTA AGTCTACTGG TCCAGTGGGT AGCGGCAGCA TGCAGCTGTT GGAGACGGAT
TTCTCCCGCA CTCTAACTGG ACTGGTAGAT CTGCACCTCT TCCATCAGAA GAGCATCCCC
GTGTTCCTCA GCGCGGTCAC CATCGAGCTG TTCAGCCGCC AGACTGTCGC CTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
 |
Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database.
BMC genomics17368(2016 05)
Pasquier J,Cabau C,Nguyen T,Jouanno E,Severac D,Braasch I,Journot L,Pontarotti P,Klopp C,Postlethwait JH,Guiguen Y,Bobe J |
|
RFX transcription factors are essential for hearing in mice.
Nature communications68549(2015 Oct)
Elkon R,Milon B,Morrison L,Shah M,Vijayakumar S,Racherla M,Leitch CC,Silipino L,Hadi S,Weiss-Gayet M,Barras E,Schmid CD,Ait-Lounis A,Barnes A,Song Y,Eisenman DJ,Eliyahu E,Frolenkov GI,Strome SE,Durand B,Zaghloul NA,Jones SM,Reith W,Hertzano R |
