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Self-rescue of an EXTENSIN mutant reveals alternative gene expression programs and candidate proteins for new cell wall assembly in Arabidopsis.

Authors :
Saha, Prasenjit
Ray, Tui
Tang, Yuhong
Dutta, Indrajit
Evangelous, Nicole R.
Kieliszewski, Marcia J.
Chen, Yuning
Cannon, Maura C.
Source :
Plant Journal; Jul2013, Vol. 75 Issue 1, p104-116, 13p, 1 Color Photograph, 3 Diagrams, 6 Charts
Publication Year :
2013

Abstract

Plants encode a poorly understood superfamily of developmentally expressed cell wall hydroxyproline-rich glycoproteins ( HRGPs). One, EXTENSIN3 ( EXT3) of the 168 putative HRGPs, is critical in the first steps of new wall assembly, demonstrated by broken and misplaced walls in its lethal homozygous mutant. Here we report the findings of phenotypic (not genotypic) revertants of the ext3 mutant and in-depth analysis including microarray and q RT- PCR (polymerase chain reaction). The aim was to identify EXT3 substitute(s), thus gaining a deeper understanding of new wall assembly. The data show differential expression in the ext3 mutant that included 61% ( P ≤ 0.05) of the HRGP genes, and ability to self-rescue by reprogramming expression. Independent revertants had reproducible expression networks, largely heritable over the four generations tested, with some genes displaying transgenerational drift towards wild-type expression levels. Genes for nine candidate regulatory proteins as well as eight candidate HRGP building materials and/or facilitators of new wall assembly or maintenance, in the (near) absence of EXT3 expression, were identified. Seven of the HRGP fit the current model of EXT function. In conclusion, the data on phenotype comparisons and on differential expression of the genes-of-focus provide strong evidence that different combinations of HRGPs regulated by alternative gene expression networks, can make functioning cell walls, resulting in (apparently) normal plant growth and development. More broadly, this has implications for interpreting the cause of any mutant phenotype, assigning gene function, and genetically modifying plants for utilitarian purposes. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09607412
Volume :
75
Issue :
1
Database :
Complementary Index
Journal :
Plant Journal
Publication Type :
Academic Journal
Accession number :
88287151
Full Text :
https://doi.org/10.1111/tpj.12204