Identification and Characterization of a T-DNA Promoter Trap Line of Arabidopsis thaliana Uncovers an Embryo Sac-Specific Bi-directional Promoter

Sharma, Isha; Srinivasan, Raji; Ahuja, Paramvir Singh; Bhat, S. R.; Sreenivasulu, Yelam

doi:10.1007/s11105-014-0829-7

Cited by 8 publications

(8 citation statements)

References 31 publications

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“…The T-DNA insertion site was determined through the genome walking approach (Pratibha et al, 2013;Sharma et al, 2015). Briefly, genome walking libraries were constructed by digesting DNA with DraI, EcoRV, PvuII, or StuI restriction enzyme followed by adapter ligation.…”

Section: Identification and Confirmation Of The T-dna Insertion Sitementioning

confidence: 99%

Gametophyte Development Needs Mitochondrial Coproporphyrinogen III Oxidase Function

et al. 2017

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Tetrapyrrole biosynthesis is one of the most essential metabolic pathways in almost all organisms. Coproporphyrinogen III oxidase (CPO) catalyzes the conversion of coproporphyrinogen III into protoporphyrinogen IX in this pathway. Here, we report that mutation in the Arabidopsis () CPO-coding gene () adversely affects silique length, ovule number, and seed set. mutant alleles were transmitted via both male and female gametes, but homozygous mutants were never recovered. Plants carrying mutant alleles showed defects in gametophyte development, including nonviable pollen and embryo sacs with unfused polar nuclei. Improper differentiation of the central cell led to defects in endosperm development. Consequently, embryo development was arrested at the globular stage. The mutant phenotype was completely rescued by transgenic expression of Promoter and transcript analyses indicated that is expressed mainly in floral tissues and developing seeds. AtHEMN1-green fluorescent protein fusion protein was found targeted to mitochondria. Loss of function increased coproporphyrinogen III level and reduced protoporphyrinogen IX level, suggesting the impairment of tetrapyrrole biosynthesis. Blockage of tetrapyrrole biosynthesis in the mutant led to increased reactive oxygen species (ROS) accumulation in anthers and embryo sacs, as evidenced by nitroblue tetrazolium staining. Our results suggest that the accumulated ROS disrupts mitochondrial function by altering their membrane polarity in floral tissues. This study highlights the role of mitochondrial ROS homeostasis in gametophyte and seed development and sheds new light on tetrapyrrole/heme biosynthesis in plant mitochondria.

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Section: Identification and Confirmation Of The T-dna Insertion Sitementioning

confidence: 99%

Gametophyte Development Needs Mitochondrial Coproporphyrinogen III Oxidase Function

et al. 2017

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“…An Arabidopsis thaliana mutant showing high seed sterility was identified in a T-DNA promoter trap mutant population. This line, designated as GUS-650, carries a promoter-less uidA reporter gene and showed GUS expression in the ovules (for details see Sharma et al 2015). Further, the T-DNA was found to be inserted in the 5′ UTR of At3g17150 gene coding for P ectin M ethyl E sterase Inhibitor ( PMEI ) and was specifically expressing in the mature embryo sacs.…”

Section: Resultsmentioning

confidence: 99%

“…In particular, the roles of embryo sac cellularization and cell wall composition in differentiation of gamete specification have not been investigated so far. Investigation of an Arabidopsis thaliana T-DNA promoter trap mutant showing GUS expression in the embryo sac (Sharma et al, 2015) revealed mis-specification of gamete cells leading to high seed sterility. Here we report that the loss-of-function mutation in the At3g17150 gene annotated to code for a “pectin methylesterase inhibitor” results in this shift in cell fate thereby revealing the role of cell-wall in determining cell fate of female gametophyte and subsequent embryo development.…”

Section: Introductionmentioning

confidence: 99%

Impaired embryo sac cellularization byPMEIgene mutation affects gamete specification and twin plants in Arabidopsis

Sharma,

Malathi,

Srinivasan

et al. 2023

Preprint

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Arabidopsis lines with loss-of-function mutations in the gene encoding Embryo sac Pectin MethylEsterase Inhibitor (Atepmei) were found to have short silique and high seed sterility. Examination of tissue-cleared mature ovules (FG7-stage) revealed irregularly positioned nuclei within the embryo sacs. Instead of horse-shoe-shaped ovules, defective globular ovules without proper micropylar and chalazal ends were found. Embryo sac cell-type-specific GFP marker expression studies confirmed gamete and accessory cell identity alterations. Egg cell-specific marker (DD45) expression analysis confirmed the presence of multiple egg cells in the mutant embryo sacs, possibly due to defect in embryo sac cellularization. These supernumerary egg cells were functional as evident from the production of twin embryos when supernumerary sperm cells were provided. The results of Ruthenium red and tannic acid-ferric chloride staining of Atepmei mutant developing ovules, conferred its interaction with the specific PME in proper cell wall formation and maintenance around embryo sac nuclei which also coincide with its fate as a specific gamete. This is the first report implicating role of cell wall in gamete cell fate determination by altering cell-cell communication. Our analysis of the twin-embryo phenotype of epmei mutants also sheds light on the boundary conditions for double fertilization in plant reproduction.

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“…Most studies of natural bidirectional promoters have focused on the model plant Arabidopsis. Examples of bidirectional promoters identified in Arabidopsis include two gene pairs, cab1/cab2 and At5g06290/At5g06280 , involved in photosynthesis which have 2177- and 351-bp bidirectional promoters, respectively ( Bondino and Valle, 2009 ; Mitra et al , 2009 ); 668- and 461-bp intergenic regions in the At3g17140/At3g17150 and At4g10596/At4g110600 gene pairs identified by characterization of two T-DNA promoter trap lines ( Pratibha et al , 2013 ; Sharma et al , 2014 ); an asymmetric bidirectional promoter in the At1g71850 / At1g71860 gene pair ( Liu et al , 2015 ); and a heat-inducible bidirectional promoter in the AtClpB-C / AtCK2 gene pair ( Mishra and Grover, 2014 ).…”

Section: Introductionmentioning

confidence: 99%

The intergenic region of the maize defensin-like protein genesDef1 and Def2functions as an embryo-specific asymmetric bidirectional promoter

Liu

Yang

et al. 2016

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Identification and Characterization of a T-DNA Promoter Trap Line of Arabidopsis thaliana Uncovers an Embryo Sac-Specific Bi-directional Promoter

Cited by 8 publications

References 31 publications

Gametophyte Development Needs Mitochondrial Coproporphyrinogen III Oxidase Function

Gametophyte Development Needs Mitochondrial Coproporphyrinogen III Oxidase Function

Impaired embryo sac cellularization byPMEIgene mutation affects gamete specification and twin plants in Arabidopsis

The intergenic region of the maize defensin-like protein genesDef1 and Def2functions as an embryo-specific asymmetric bidirectional promoter

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