The 2D to 3D growth transition in the moss Physcomitrella patens

被引:35
作者
Moody, Laura A. [1 ]
机构
[1] Univ Oxford, Dept Plant Sci, South Parks Rd, Oxford OX1 3RB, England
来源
CURRENT OPINION IN PLANT BIOLOGY | 2019年 / 47卷
基金
英国生物技术与生命科学研究理事会;
关键词
BUD FORMATION; CELL; EVOLUTION; CALPAIN; ORIGIN; PLANTS; DEK1; ENDOSPERM; TONNEAU1; DIVISION;
D O I
10.1016/j.pbi.2018.10.001
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
The colonization of land by plants coincided with and was most likely facilitated by the evolution of 3-dimensional (3D) growth. 3D growth is a pivotal feature of all land plants, but most develop in a way that precludes genetic investigation. In the moss Physcomitrella patens, 3D growth (gametophores) is preceded by an extended 2-dimensional (2D) growth phase (protonemata) that can be propagated indefinitely. Studies using P. patens have thus elucidated some of the molecular mechanisms underlying 3D growth regulation. This review summarizes the known molecular mechanisms underlying both the formation of gametophore initial cells and the development of the 3D growth in gametophores.
引用
收藏
页码:88 / 95
页数:8
相关论文
共 41 条
[21]   The catalytic domain CysPc of the DEK1 calpain is functionally conserved in land plants [J].
Liang, Zhe ;
Demko, Viktor ;
Wilson, Robert C. ;
Johnson, Kenneth A. ;
Ahmad, Rafi ;
Perroud, Pierre-Francois ;
Quatrano, Ralph ;
Zhao, Sen ;
Shalchian-Tabrizi, Kamran ;
Otegui, Marisa S. ;
Olsen, Odd-Arne ;
Johansen, Wenche .
PLANT JOURNAL, 2013, 75 (05) :742-754
[22]   Mutation in the Arabidopisis thaliana DEK1 calpain gene perturbs endosperm and embryo development while over-expression affects organ development globally [J].
Lid, SE ;
Olsen, L ;
Nestestog, R ;
Aukerman, M ;
Brown, RC ;
Lemmon, B ;
Mucha, M ;
Opsahl-Sorteberg, HG ;
Olsen, OA .
PLANTA, 2005, 221 (03) :339-351
[23]   The defective kernel 1 (dek1) gene required for aleurone cell development in the endosperm of maize grains encodes a membrane protein of the calpain gene superfamily [J].
Lid, SE ;
Gruis, D ;
Jung, R ;
Lorentzen, JA ;
Ananiev, E ;
Chamberlin, M ;
Niu, XM ;
Meeley, R ;
Nichols, S ;
Olsen, OA .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2002, 99 (08) :5460-5465
[24]   Both chloronemal and caulonemal cells expand by tip growth in the moss Physcomitrella patens [J].
Menand, Benoit ;
Calder, Grant ;
Dolan, Liam .
JOURNAL OF EXPERIMENTAL BOTANY, 2007, 58 (07) :1843-1849
[25]   Evolution of CLE signaling Origins of the CLV1 and SOL2/CRN receptor diversity [J].
Miwa, Hiroki ;
Tamaki, Takayuki ;
Fukuda, Hiroo ;
Sawa, Shinichiro .
PLANT SIGNALING & BEHAVIOR, 2009, 4 (06) :477-481
[26]   Genetic Regulation of the 2D to 3D Growth Transition in the Moss Physcomitrella patens [J].
Moody, Laura A. ;
Kelly, Steven ;
Rabbinowitsch, Ester ;
Langdale, Jane A. .
CURRENT BIOLOGY, 2018, 28 (03) :473-+
[27]   The evolution of plant body plans - A biomechanical perspective [J].
Niklas, KJ .
ANNALS OF BOTANY, 2000, 85 (04) :411-438
[28]   Defective Kernel 1 (DEK1) is required for three-dimensional growth in Physcomitrella patens [J].
Perroud, Pierre-Francois ;
Demko, Viktor ;
Johansen, Wenche ;
Wilson, Robert C. ;
Olsen, Odd-Arne ;
Quatrano, Ralph S. .
NEW PHYTOLOGIST, 2014, 203 (03) :794-804
[29]   The Physcomitrella patens exocyst subunit EXO70.3d has distinct roles in growth and development, and is essential for completion of the moss life cycle [J].
Rawat, Anamika ;
Brejskova, Lucie ;
Hala, Michal ;
Cvrckova, Fatima ;
Zarsky, Viktor .
NEW PHYTOLOGIST, 2017, 216 (02) :438-454
[30]   INDUCTION OF BUDDING ON CHLORONEMATA AND CAULONEMATA OF THE MOSS, PHYSCOMITRELLA-PATENS, USING ISOPENTENYLADENINE [J].
RESKI, R ;
ABEL, WO .
PLANTA, 1985, 165 (03) :354-358
12345