Publication details

The Beta Subunit of Nascent Polypeptide Associated Complex Plays A Role in Flowers and Siliques Development of Arabidopsis thaliana

Authors

FÍLA Jan KLODOVÁ Božena POTĚŠIL David JUŘÍČEK Miloslav ŠESTÁK Petr ZDRÁHAL Zbyněk HONYS David

Year of publication 2020
Type Article in Periodical
Magazine / Source International Journal of Molecular Sciences
MU Faculty or unit

Central European Institute of Technology

Citation
Web fulltext
Doi http://dx.doi.org/10.3390/ijms21062065
Keywords Arabidopsis thaliana; chaperone; flower bud proteome; flower bud transcriptome; male gametophyte; nascent polypeptide-associated complex
Description The nascent polypeptide-associated (NAC) complex was described in yeast as a heterodimer composed of two subunits, alpha and beta, and was shown to bind to the nascent polypeptides newly emerging from the ribosomes. NAC function was widely described in yeast and several information are also available about its role in plants. The knock down of individual NAC subunit(s) led usually to a higher sensitivity to stress. In Arabidopsis thaliana genome, there are five genes encoding NAC alpha subunit, and two genes encoding NAC beta. Double homozygous mutant in both genes coding for NAC beta was acquired, which showed a delayed development compared to the wild type, had abnormal number of flower organs, shorter siliques and greatly reduced seed set. Both NAC beta genes were characterized in more detail-the phenotype of the double homozygous mutant was complemented by a functional NAC beta copy. Then, both NAC beta genes were localized to nuclei and cytoplasm and their promoters were active in many organs (leaves, cauline leaves, flowers, pollen grains, and siliques together with seeds). Since flowers were the most affected organs by nac beta mutation, the flower buds' transcriptome was identified by RNA sequencing, and their proteome by gel-free approach. The differential expression analyses of transcriptomic and proteomic datasets suggest the involvement of NAC beta subunits in stress responses, male gametophyte development, and photosynthesis.
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