Gravitropism in lateral roots of Arabidopsis pgm-1 mutants is indistinguishable from that of wild-type

被引:6
|
作者
Bai, Hanwen [1 ]
Wolverton, Chris [1 ]
机构
[1] Ohio Wesleyan Univ, Dept Bot & Microbiol, Delaware, OH 43015 USA
来源
PLANT SIGNALING & BEHAVIOR | 2011年 / 6卷 / 10期
关键词
Gravitropism; Lateral roots; Pgm-1; Root system architecture;
D O I
10.4161/psb.6.10.16963
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The majority of understanding of root gravity responses comes from the study of primary roots, even though lateral roots make a far greater contribution to root system architecture. The focus of this report is the analysis of gravitropic responses in lateral roots of wild-type background and pgm-1 mutants. Despite the significant reduction in gravitropic response of primary roots of pgm-1 mutants, the lateral roots of this mutant demonstrate wild-type rates of gravitropism, suggesting a significant difference in gravity signal transduction between primary and lateral roots.
引用
收藏
页码:1423 / 1424
页数:2
相关论文
共 50 条
  • [31] Effect of Cholesterol Molecules on Aβ1-42 Wild-Type and Mutants Trimers
    Nguyen, Trung Hai
    Nguyen, Phuong H.
    Ngo, Son Tung
    Derreumaux, Philippe
    MOLECULES, 2022, 27 (04):
  • [32] LATERAL DIFFUSION OF HUMAN CD2 WILD-TYPE AND MUTANTS WITH LARGE DELETIONS IN THE TRANSMEMBRANE DOMAIN
    CORCAO, G
    SUTCLIFFE, RG
    KUSEL, JR
    LIMA, SF
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1995, 208 (03) : 1131 - 1136
  • [33] Leaf hydraulic conductance varies with vein anatomy across Arabidopsis thaliana wild-type and leaf vein mutants
    Caringella, Marissa A.
    Bongers, Franca J.
    Sack, Lawren
    PLANT CELL AND ENVIRONMENT, 2015, 38 (12): : 2735 - 2746
  • [34] Abscisic Acid-Responsive Guard Cell Metabolomes of Arabidopsis Wild-Type and gpa1 G-Protein Mutants
    Jin, Xiaofen
    Wang, Rui-Sheng
    Zhu, Mengmeng
    Jeon, Byeong Wook
    Albert, Reka
    Chen, Sixue
    Assmann, Sarah M.
    PLANT CELL, 2013, 25 (12): : 4789 - 4811
  • [35] CHLOROPHYLL-PROTEIN-COMPLEXES OF THYLAKOIDS OF WILD-TYPE AND CHLOROPHYLL-B MUTANTS OF ARABIDOPSIS-THALIANA
    RUHLE, W
    REILANDER, H
    OTTO, KD
    WILD, A
    PHOTOSYNTHESIS RESEARCH, 1983, 4 (04) : 301 - 305
  • [36] A single-cell Arabidopsis root atlas reveals developmental trajectories in wild-type and cell identity mutants
    Shahan, Rachel
    Hsu, Che-Wei
    Nolan, Trevor M.
    Cole, Benjamin J.
    Taylor, Isaiah W.
    Greenstreet, Laura
    Zhang, Stephen
    Afanassiev, Anton
    Vlot, Anna Hendrika Cornelia
    Schiebinger, Geoffrey
    Benfey, Philip N.
    Ohler, Uwe
    DEVELOPMENTAL CELL, 2022, 57 (04) : 543 - +
  • [37] Truncated WT1 mutants alter the subnuclear localization of the wild-type protein
    Englert, C
    Vidal, M
    Maheswaran, S
    Ge, YM
    Ezzell, RM
    Isselbacher, KJ
    Haber, DA
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1995, 92 (26) : 11960 - 11964
  • [38] The potential of various HIV-1 mutants to inhibit the replication of wild-type virus
    Inubushi, R
    Shimano, R
    Oshima, Y
    Adachi, A
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1998, 247 (02) : 349 - 352
  • [39] Purification and characterization of cellulase from the wild-type and two improved mutants of Pseudomonas fluorescens
    Bakare, MK
    Adewale, IO
    Ajayi, A
    Shonukan, OO
    AFRICAN JOURNAL OF BIOTECHNOLOGY, 2005, 4 (09): : 898 - 904
  • [40] PHYSICAL STRUCTURE OF ENDOTOXIN EXTRACTED FROM WILD-TYPE AND R-MUTANTS OF SALMONELLA
    FUKUSHI, K
    ASANO, H
    SASAKI, J
    JOURNAL OF ELECTRON MICROSCOPY, 1977, 26 (02): : 95 - 101
12345