Duplication of FGF3, FGF4, FGF19 and ORAOV1 causes hair ridge and predisposition to dermoid sinus in Ridgeback dogs

被引:0
|
作者
Nicolette H C Salmon Hillbertz
Magnus Isaksson
Elinor K Karlsson
Eva Hellmén
Gerli Rosengren Pielberg
Peter Savolainen
Claire M Wade
Henrik von Euler
Ulla Gustafson
Åke Hedhammar
Mats Nilsson
Kerstin Lindblad-Toh
Leif Andersson
Göran Andersson
机构
[1] Swedish University of Agricultural Sciences (SLU),Department of Animal Breeding and Genetics
[2] Biomedical Centre,Department of Genetics and Pathology
[3] Box 597,Department of Anatomy
[4] The Rudbeck Laboratory,Department of Medical Biochemistry and Microbiology
[5] Uppsala University,Department of Clinical Sciences
[6] Broad Institute of Harvard and MIT,undefined
[7] 7 Cambridge Center,undefined
[8] Bioinformatics Program,undefined
[9] Boston University,undefined
[10] Physiology and Biochemistry,undefined
[11] SLU,undefined
[12] Box 7011,undefined
[13] Uppsala University,undefined
[14] Box 597,undefined
[15] School of Biotechnology,undefined
[16] Royal Institute of Technology,undefined
[17] AlbaNova University Center,undefined
[18] Center for Human Genetic Research,undefined
[19] Massachusetts General Hospital,undefined
[20] SLU,undefined
[21] Box 7054,undefined
来源
Nature Genetics | 2007年 / 39卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
The dorsal hair ridge in Rhodesian and Thai Ridgeback dogs is caused by a dominant mutation that also predisposes to the congenital developmental disorder dermoid sinus. Here we show that the causative mutation is a 133-kb duplication involving three fibroblast growth factor (FGF) genes. FGFs play a crucial role in development, suggesting that the ridge and dermoid sinus are caused by dysregulation of one or more of the three FGF genes during development.
引用
收藏
页码:1318 / 1320
页数:2
相关论文
共 9 条
  • [1] Duplication of FGF3, FGF4, FGF19 and ORAOV1 causes hair ridge and predisposition to dermoid sinus in Ridgeback dogs
    Hillbertz, Nicolette H. C. Salmon
    Isaksson, Magnus
    Karlsson, Elinor K.
    Hellmen, Eva
    Pielberg, Gerli Rosengren
    Savolainen, Peter
    Wade, Claire M.
    Von Euler, Henrik
    Gustafson, Ulla
    Hedhammar, Ake
    Nilsson, Mats
    Lindblad-Toh, Kerstin
    Andersson, Leif
    Andersson, Goran
    NATURE GENETICS, 2007, 39 (11) : 1318 - 1320
  • [2] PRECISION THERAPY IN HEPATOCELLULAR CARCINOMA: ASSOCIATION OF FGF3, FGF4, AND FGF19 AMPLIFICATION WITH RESPONSE TO SORAFENIB
    Hassan, Hind
    Ali, Mohamed Abdulwahab Mohamed
    O'Brien, Daniel
    Hassan, Fatma
    Tadakamalla, Anirudh
    Taha, Wesam
    Wang, Chen
    Kocher, Jean-Pierre
    Borad, Mitesh
    Lam-Himlin, Dora M.
    Cleary, Sean
    Torbenson, Michael
    Roberts, Lewis R.
    HEPATOLOGY, 2023, 78 : S1869 - S1870
  • [3] The spontaneous mouse mutant low set ears (Lse) is caused by tandem duplication of Fgf3 and Fgf4
    Luzzio, Alana
    Edie, Sarah
    Palmer, Kristina
    Caddle, L. Brianna
    Urban, Rachel
    Goodwin, Leslie O.
    Welsh, Ian C.
    Reinholdt, Laura G.
    Bergstrom, David E.
    Cox, Timothy C.
    Donahue, Leah Rae
    Murray, Stephen A.
    MAMMALIAN GENOME, 2023, 34 (03) : 453 - 463
  • [4] The spontaneous mouse mutant low set ears (Lse) is caused by tandem duplication of Fgf3 and Fgf4
    Alana Luzzio
    Sarah Edie
    Kristina Palmer
    L. Brianna Caddle
    Rachel Urban
    Leslie O. Goodwin
    Ian C. Welsh
    Laura G. Reinholdt
    David E. Bergstrom
    Timothy C. Cox
    Leah Rae Donahue
    Stephen A. Murray
    Mammalian Genome, 2023, 34 : 453 - 463
  • [5] An 11q11-q13-3 duplication, including FGF3 and FGF4 genes, in a patient with syndromic multiple craniosynostoses
    Jehee, Fernanda S.
    Bertola, Debora R.
    Yelavarthi, Krishna K.
    Krepischi-Santos, Ana C. V.
    Kim, Chong
    Vianna-Morgante, Angela M.
    Vermeesch, Joris R.
    Passos-Bueno, Maria Rita
    AMERICAN JOURNAL OF MEDICAL GENETICS PART A, 2007, 143A (16) : 1912 - 1918
  • [6] High-throughput tissue microarray analysis of 11q13 genes amplification (CCND1, FGF3/FGF4, FGF3, EMS1) in urinary bladder cancer
    Zaharieva, B
    Simon, R
    Gasser, T
    Sauter, G
    Toncheva, D
    EUROPEAN JOURNAL OF HUMAN GENETICS, 2002, 10 : 92 - 92
  • [7] High-throughput tissue microarray analysis of 11q13 gene amplification (CCND1, FGF3, FGF4, EMS1) in urinary bladder cancer
    Zaharieva, BM
    Simon, R
    Diener, PA
    Ackermann, D
    Maurer, R
    Alund, G
    Knönagel, H
    Rist, M
    Wilber, K
    Hering, F
    Schönenberger, A
    Flury, R
    Jäger, P
    Fehr, JL
    Mihatsch, MJ
    Gasser, T
    Sauter, G
    Flury, R
    Jäger, P
    Fehr, JL
    Mihatsch, MJ
    Gasser, T
    Sauter, G
    Toncheva, DI
    JOURNAL OF PATHOLOGY, 2003, 201 (04): : 603 - 608
  • [8] COAMPLIFICATION OF INT-2 (FGF3) AND HST-1 (FGF4) GENES ON HOMOGENEOUS STRAINS REGIONS (HSRS) IN SMALL-CELL LUNG-CANCER IDENTIFIED BY CHROMOSOME MICRODISSECTION AND FISH
    XU, J
    CEDRONE, E
    WANG, N
    AMERICAN JOURNAL OF HUMAN GENETICS, 1995, 57 (04) : 436 - 436
  • [9] LY2874455 and Abemaciclib Reverse FGF3/4/19/CCND1 Amplification Mediated Gefitinib Resistance in NSCLC
    Liu, Dongcheng
    Liu, Hongguang
    Gan, Jiadi
    Zeng, Shinuan
    Zhong, Fuhua
    Zhang, Bin
    Zhang, Zhe
    Zhang, Siyu
    Jiang, Lu
    Wang, Guangsuo
    Chen, Yixin
    Kong, Feng-Ming Spring
    Fang, Wenfeng
    Wang, Lingwei
    FRONTIERS IN PHARMACOLOGY, 2022, 13
1