| Literature DB >> 25487628 |
Minesh Patel1, Susana Milla-Lewis1, Wanjun Zhang1, Kerry Templeton2, William C Reynolds1, Kim Richardson3, Margaret Biswas2, Maria C Zuleta1, Ralph E Dewey1, Rongda Qu1, Puthigae Sathish2.
Abstract
HUB1, also known as Ubl5, is a member of the subfamily of ubiquitin-like post-translational modifiers. HUB1 exerts its role by conjugating with protein targets. The function of this protein has not been studied in plants. A HUB1 gene, LpHUB1, was identified from serial analysis of gene expression data and cloned from perennial ryegrass. The expression of this gene was reported previously to be elevated in pastures during the summer and by drought stress in climate-controlled growth chambers. Here, pasture-type and turf-type transgenic perennial ryegrass plants overexpressing LpHUB1 showed improved drought tolerance, as evidenced by improved turf quality, maintenance of turgor and increased growth. Additional analyses revealed that the transgenic plants generally displayed higher relative water content, leaf water potential, and chlorophyll content and increased photosynthetic rate when subjected to drought stress. These results suggest HUB1 may play an important role in the tolerance of perennial ryegrass to abiotic stresses.Entities:
Keywords: HUB1; Lolium perenne; drought tolerance; small ORF; transgenic
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Year: 2014 PMID: 25487628 DOI: 10.1111/pbi.12291
Source DB: PubMed Journal: Plant Biotechnol J ISSN: 1467-7644 Impact factor: 9.803