Chloroplast Division and Morphology Are Differentially Affected by Overexpression of FtsZ1 and FtsZ2 Genes in Arabidopsis

Autor:	Rubi Figueroa, Katherine W. Osteryoung, Stanislav Vitha, Kevin D. Stokes, Rosemary S. McAndrew
Rok vydání:	2000
Předmět:	Chloroplasts Nuclear gene Cell division Physiology Immunoblotting Arabidopsis Plant Science Antibody Specificity Gene Expression Regulation Plant Genetics Protein Isoforms Gene family Arabidopsis thaliana Plastid FtsZ Plant Proteins biology Arabidopsis Proteins fungi Antibodies Monoclonal food and beverages Plants Genetically Modified biology.organism_classification biology.protein Functional divergence Research Article
Zdroj:	Plant Physiology. 124:1668-1677
ISSN:	1532-2548 0032-0889
Popis:	In higher plants, two nuclear gene families, FtsZ1and FtsZ2, encode homologs of the bacterial protein FtsZ, a key component of the prokaryotic cell division machinery. We previously demonstrated that members of both gene families are essential for plastid division, but are functionally distinct. To further explore differences between FtsZ1 and FtsZ2 proteins we investigated the phenotypes of transgenic plants overexpressingAtFtsZ1-1 or AtFtsZ2-1, Arabidopsis members of the FtsZ1 and FtsZ2 families, respectively. Increasing the level of AtFtsZ1-1 protein as little as 3-fold inhibited chloroplast division. Plants with the most severe plastid division defects had 13- to 26-fold increases in AtFtsZ1-1 levels over wild type, and some of these also exhibited a novel chloroplast morphology. Quantitative immunoblotting revealed a correlation between the degree of plastid division inhibition and the extent to which the AtFtsZ1-1 protein level was elevated. In contrast, expression of an AtFtsZ2-1 sense transgene had no obvious effect on plastid division or morphology, though AtFtsZ2-1 protein levels were elevated only slightly over wild-type levels. This may indicate that AtFtsZ2-1 accumulation is more tightly regulated than that of AtFtsZ1-1. Plants expressing the AtFtsZ2-1transgene did accumulate a form of the protein smaller than those detected in wild-type plants. AtFtsZ2-1 levels were unaffected by increased or decreased accumulation of AtFtsZ1-1 and vice versa, suggesting that the levels of these two plastid division proteins are regulated independently. Taken together, our results provide additional evidence for the functional divergence of the FtsZ1 andFtsZ2 plant gene families.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::9ccf21dc5197f783edc004014e6adf17 https://doi.org/10.1104/pp.124.4.1668 Zobrazit plný text záznamu