OsSIZ1 Regulates the Vegetative Growth and Reproductive Development in Rice

Wang, Huadun; Makeen, Kousar; Yan, Yan; Cao, Yue; Sun, Shubin; Xu, Guohua

doi:10.1007/s11105-010-0232-y

Cited by 29 publications

(23 citation statements)

References 23 publications

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“…The SUMO regulatory mechanism is conserved in Oryza sativa (rice), Zea mays (maize), Dendrobium (orchids), and Malus domestica (apple; Park et al ; Liu et al ; Augustine et al ; Zhang et al ). The SUMO E3 ligase OsSIZ1 regulates phosphate‐ and nitrogen‐dependent responses, spikelet fertility, and plant development in rice (Thangasamy et al ; Wang et al , ). Moreover, the OsOTS1 SUMO protease positively regulates salt stress responses in rice (Srivastava et al ).…”

Section: Introductionmentioning

confidence: 99%

SUMO E3 Ligases GmSIZ1a and GmSIZ1b regulate vegetative growth in soybean

Cai

Kong

Zhong

et al. 2017

JIPB

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SIZ1 is a small ubiquitin‐related modifier (SUMO) E3 ligase that mediates post‐translational SUMO modification of target proteins and thereby regulates developmental processes and hormonal and environmental stress responses in Arabidopsis. However, the role of SUMO E3 ligases in crop plants is largely unknown. Here, we identified and characterized two Glycine max (soybean) SUMO E3 ligases, GmSIZ1a and GmSIZ1b. Expression of GmSIZ1a and GmSIZ1b was induced in response to salicylic acid (SA), heat, and dehydration treatment, but not in response to cold, abscisic acid (ABA), and NaCl treatment. Although GmSIZ1a was expressed at higher levels than GmSIZ1b, both genes encoded proteins with SUMO E3 ligase activity in vivo. Heterologous expression of GmSIZ1a or GmSIZ1b rescued the mutant phenotype of Arabidopsis siz1‐2, including dwarfism, constitutively activated expression of pathogen‐related genes, and ABA‐sensitive seed germination. Simultaneous downregulation of GmSIZ1a and GmSIZ1b (GmSIZ1a/b) using RNA interference (RNAi)‐mediated gene silencing decreased heat shock‐induced SUMO conjugation in soybean. Moreover, GmSIZ1RNAi plants exhibited reduced plant height and leaf size. However, unlike Arabidopsis siz1‐2 mutant plants, flowering time and SA levels were not significantly altered in GmSIZ1RNAi plants. Taken together, our results indicate that GmSIZ1a and GmSIZ1b mediate SUMO modification and positively regulate vegetative growth in soybean.

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Section: Introductionmentioning

confidence: 99%

SUMO E3 Ligases GmSIZ1a and GmSIZ1b regulate vegetative growth in soybean

Cai

Kong

Zhong

et al. 2017

JIPB

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“…Reeves et al (2002) found that mutation of AtSIZ1 caused early flowering that is associated with FLC which is a floral suppressor (Reeves et al 2002). In rice, Wang et al (2010) found that the mutation of OsSIZ1 not only affected the vegetative growth but also inhibited the flowering relative to wild type . Again, AtARFs antisense plants in Arabidopsis were severely stunted due to alterations in hormonal and other ARF-mediated signaling pathways, elucidating the functions of six highly ARFs in whole plant development (Gebbie et al 2005).…”

Section: Potential Advantages Of Sssls In Mapping Of Qtls For Headingmentioning

confidence: 99%

Fine Mapping of qHD4-1, a QTL Controlling the Heading Date, to a 20.7-kb DNA Fragment in Rice (Oryza sativa L.)

et al. 2010

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A library consisting of 1,123 single-segment substitution lines (SSSLs) in the same genetic background of an elite rice variety Huajingxian74 (HJX74) was evaluated for heading date. From this library, the SSSL W05-1-11-5-16-2-5 with the substituted interval of PSM103-RM348-OSR15-PSM382-RM131-RM127-RM280 was found having a gene, which stably performed extreme late heading date which performed stable and late heading in the different environments of Shandong, Guangdong, and Hainan. To map the gene governing heading date, the SSSL W05-1-11-5-16-2-5 was crossed with the recipient HJX74 to develop an F 2 segregating population. The distribution of late and early heading plants in this population fitted a segregation ratio of 3:1, indicating the late heading was controlled by a dominant gene. The gene locus for heading date was tentatively designated as qHD4-1. Using a random sample of 460 individuals from the F 2 segregation population, the qHD4-1 locus was mapped between two SSR markers RM3335 and RM17572, with genetic distances of 0.1 and 0.2 cM, respectively. For fine mapping of qHD4-1, a large F 2:3 segregating population of 3,000 individuals were developed from F 2 plants heterozygous in the RM3335-RM17572 region. Recombinants analyses further mapped qHD4-1 to an interval of 20.7-kb-bounded WB05 and the WB06. Sequence analysis of this 20.7-kb region revealed that it contains three open reading frames (ORFs), encoding wallassociated receptor kinase-like 5, putative F-box domain containing protein, and putative arogenate/prephenate dehydratase. Of them, ORF1, predicting to encode serine/ threonine kinase, is considered the most likely as the candidate gene. The genetic and physical map of the qHD4-1 locus will be very useful in molecular cloning of the qHD4-1gene.

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“…To our knowledge, most of studies were centered on the SUMO E3 ligases in crops. For instances, the rice SUMO E3 ligase OsSIZ1 regulates phosphate and nitrogen starvation responses, spikelet development and fertility [32][33][34]. In soybean, two SUMO E3 ligase GmSIZ1a and GmSIZ1b mediate sumoylation and positively regulate vegetative growth [35].…”

Section: Introductionmentioning

confidence: 99%

The Maize Class-I SUMO Conjugating Enzyme ZmSCE1d Is Involved in Drought Stress Response

Wang

Zhang

2019

IJMS

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Post-translational modification of cellular proteins by sumoylation plays a vital role in stress responses of plants. However, the mechanisms underlying the sumoylation’s involvement in stress responses in crop species remain largely unknown. Herein, a maize class-I SUMO conjugating enzyme gene (ZmSCE1d) was identified, whose expression was upregulated upon drought stress. Over-expression of ZmSCE1d in transgenic Arabidopsis plants increased SUMO conjugates and improved drought tolerance. The ZmSCE1d-transgenic plants showed higher antioxidant enzyme activities, but lower reactive oxygen species and lipid peroxidation upon drought stress. Furthermore, transcripts of several drought-responsive genes were significantly elevated, as revealed by qPCR in the transgenic lines. Taken together, these data have demonstrated that ZmSCE1d overexpression improved drought tolerance likely by regulating sumoylation levels, antioxidant capability, and drought-responsive gene expression in transgenic plants. This study may facilitate our understanding of the mechanisms underlying SCE-mediated sumoylation under drought stress and accelerate genetic improvement of crop plants tolerant to drought stress by manipulating the SUMO system.

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OsSIZ1 Regulates the Vegetative Growth and Reproductive Development in Rice

Cited by 29 publications

References 23 publications

SUMO E3 Ligases GmSIZ1a and GmSIZ1b regulate vegetative growth in soybean

SUMO E3 Ligases GmSIZ1a and GmSIZ1b regulate vegetative growth in soybean

Fine Mapping of qHD4-1, a QTL Controlling the Heading Date, to a 20.7-kb DNA Fragment in Rice (Oryza sativa L.)

The Maize Class-I SUMO Conjugating Enzyme ZmSCE1d Is Involved in Drought Stress Response

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