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Literature DB >> 27964781

Plant architecture and grain yield are regulated by the novel DHHC-type zinc finger protein genes in rice (Oryza sativa L.).

Bo Zhou¹, Jian Zhong Lin², Dan Peng³, Yuan Zhu Yang⁴, Ming Guo², Dong Ying Tang², Xiaofeng Tan⁵, Xuan Ming Liu⁶.

Abstract

In many plants, architecture and grain yield are affected by both the environment and genetics. In rice, the tiller is a vital factor impacting plant architecture and regulated by many genes. In this study, we cloned a novel DHHC-type zinc finger protein gene Os02g0819100 and its alternative splice variant OsDHHC1 from the cDNA of rice (Oryza sativa L.), which regulate plant architecture by altering the tiller in rice. The tillers increased by about 40% when this type of DHHC-type zinc finger protein gene was over-expressed in Zhong Hua 11 (ZH11) rice plants. Moreover, the grain yield of transgenic rice increased approximately by 10% compared with wild-type ZH11. These findings provide an important genetic engineering approach for increasing rice yields.

Entities: Gene Species

Keywords: Alternative splicing; DHHC-type zinc finger protein; OsDHHC1; Plant architecture; Rice

Mesh：

Substances：

Year: 2016 PMID： 27964781 DOI： 10.1016/j.plantsci.2016.08.015

Source DB: PubMed Journal: Plant Sci ISSN： 0168-9452 Impact factor: 4.729

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Review 4. Protein S-acyltransferases and acyl protein thioesterases, regulation executors of protein S-acylation in plants.

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5. Increasing branch and seed yield through heterologous expression of the novel rice S-acyl transferase gene OsPAT15 in Brassica napus L.

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