Two homoeoallelic gene expression of TaCHLIs ensures normal chlorophyll biosynthesis in Hexaploid wheat

IF 6.1 2区生物学 Q1 PLANT SCIENCES

Plant Physiology and Biochemistry Pub Date : 2025-03-17 DOI:10.1016/j.plaphy.2025.109795

Jian Yang , Yankun Zhao , Yanmin Zou , Jinfu Ban , Zhankun Li , Yu'e Zhang , Junfeng Yang , Yan Wang , Caihua Li , Xiaoyi Fu , Xinmei Gao , Weiguo Hu , Xicheng Wang , Yanjie Zhou , Xin Ding , Mingqi He , Wensheng Zhang , Tingjie Cao , Zhenxian Gao

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引用次数: 0

Abstract

Being polyploid has a fitness advantage but is physically complex. During polyploid plant evolution, some duplicate genes retain their ancestral function, which affected the plant phenotype in allelic dosage or functional redundancy. However, how duplicated genes whose products needed to form functional complexes coped with deleterious mutations remained unclear. Here, we report a yellow green leaf-2 (ygl2) mutant with yellow-green leaves derived from a cross of Shaan 3025 (S3025) and Shi 4185 (S4185) that was controlled by a combination of Tachli-7A null and Tachli-7B truncation, whereas Tachli-7A null or Tachli-7B truncation individually resulted in normal leaf colour. Our results indicated genetic complementarity between TaCHLI-7A and TaCHLI-7B is responsible for normal chloroplast development. Furthermore, TaCHLI-7D was conserved in ygl2, S3025 and S4185 at both sequence and expression levels. Furthermore, two-thirds of the total mRNA abundance in S4185 with Tachli-7A null was sufficient for chlorophyll synthesis, indicating that redundant mRNA dosage was the reason for genetic complementarity. Particularly, Tachli-7A null can be retained in several modern cultivars with no disadvantage under field conditions, probably because the redundant mRNA dosage is expected to buffer the gene imbalance caused by the imperfect relationship between different copies of TaCHLIs and their molecular interactors. Furthermore, the loss of TaCHLI-7A seems to preserve the minimum dosage and maximise simplification. Our findings provide evidence of homoeologs loss and functional mechanism during polyploid evolution.

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来源期刊

Plant Physiology and Biochemistry 生物-植物科学

CiteScore

11.10

自引率

3.10%

发文量

410

审稿时长

33 days

期刊介绍： Plant Physiology and Biochemistry publishes original theoretical, experimental and technical contributions in the various fields of plant physiology (biochemistry, physiology, structure, genetics, plant-microbe interactions, etc.) at diverse levels of integration (molecular, subcellular, cellular, organ, whole plant, environmental). Opinions expressed in the journal are the sole responsibility of the authors and publication does not imply the editors'' agreement. Manuscripts describing molecular-genetic and/or gene expression data that are not integrated with biochemical analysis and/or actual measurements of plant physiological processes are not suitable for PPB. Also "Omics" studies (transcriptomics, proteomics, metabolomics, etc.) reporting descriptive analysis without an element of functional validation assays, will not be considered. Similarly, applied agronomic or phytochemical studies that generate no new, fundamental insights in plant physiological and/or biochemical processes are not suitable for publication in PPB. Plant Physiology and Biochemistry publishes several types of articles: Reviews, Papers and Short Papers. Articles for Reviews are either invited by the editor or proposed by the authors for the editor''s prior agreement. Reviews should not exceed 40 typewritten pages and Short Papers no more than approximately 8 typewritten pages. The fundamental character of Plant Physiology and Biochemistry remains that of a journal for original results.