Diversity and redundancy of the ripening regulatory networks revealed by the fruitENCODE and the new CRISPR/Cas9 CNR and NOR mutants

Gao, Ying; Zhu, Ning; Zhu, Xiaofang; Wu, Meng; Jiang, Cai‐Zhong; Grierson, Donald; Luo, Yunbo; Shen, Weicheng; Zhong, Silin; Fu, Daqi; Qu, Guiqin

doi:10.1038/s41438-019-0122-x

Cited by 121 publications

(109 citation statements)

References 31 publications

Supporting

Mentioning

102

Contrasting

Unclassified

Order By: Relevance

“…Intriguingly, targeted mutagenesis of SBP-CNR and NAC-NOR transcription factors, which are thought to be master regulators of tomato ripening, resulted in tomato delayed ripening or partial non-ripening. This phenotype was surprisingly distinct from the previously used original tomato mutants [31], suggesting a great potential of CRISPR/Cas9 system in gene functional research. SLs were found to retard bud outgrowth [5,6], and SL biosynthetic genes CCD7 (MAX3) and CCD8 (MAX4) had been demonstrated to be involved in branching control in multiple herbaceous plants, including Arabidopsis, rice and tomato [8,[32][33][34].…”

Section: Discussioncontrasting

confidence: 67%

Knockout of VvCCD8 gene in grapevine affects shoot branching

et al. 2020

View full text Add to dashboard Cite

Background: Shoot branching is an important trait of plants that allows them to adapt to environment changes. Strigolactones (SLs) are newly identified plant hormones that inhibit shoot branching in plants. The SL biosynthesis genes CCD7 (carotenoid cleavage dioxygenase 7) and CCD8 have been found to regulate branching in several herbaceous plants by taking advantage of their loss-of-function mutants. However, the role for CCD7 and CCD8 in shoot branching control in grapevine is still unknown due to the lack of corresponding mutants. Results: Here we employed the CRISPR/Cas9 system to edit the VvCCD7 and VvCCD8 genes in the grape hybrid 41B. The 41B embryogenic cells can easily be transformed and used for regeneration of the corresponding transformed plants. Sequencing analysis revealed that gene editing has been used successfully to target both VvCCD genes in 41B embryogenic cells. After regeneration, six 41B plantlets were identified as transgenic plants carrying the CCD8-sgRNA expression cassette. Among these, four plants showed mutation in the target region and were selected as ccd8 mutants. These ccd8 mutants showed increased shoot branching compared to the corresponding wild-type plants. In addition, no off-target mutation was detected in the tested mutants at predicted off-target sites. Conclusions: Our results underline the key role of VvCCD8 in the control of grapevine shoot branching.

show abstract

Section: Discussioncontrasting

confidence: 67%

Knockout of VvCCD8 gene in grapevine affects shoot branching

et al. 2020

View full text Add to dashboard Cite

show abstract

“…MELO3C024516 has 10 non-synonymous variants between Ved and PS. ROS1 encodes a demethylase, and demethylation has been reported as one of the main mechanism regulating fruit ripening 15 , 38 . In tomato, the ROS1 orthologue DML2 is a demethylase governing fruit ripening 14 .…”

Section: Discussionmentioning

confidence: 99%

Genetic dissection of climacteric fruit ripening in a melon population segregating for ripening behavior

et al. 2020

View full text Add to dashboard Cite

Melon is as an alternative model to understand fruit ripening due to the coexistence of climacteric and non-climacteric varieties within the same species, allowing the study of the processes that regulate this complex trait with genetic approaches. We phenotyped a population of recombinant inbred lines (RILs), obtained by crossing a climacteric (Védrantais, cantalupensis type) and a non-climcteric variety (Piel de Sapo T111, inodorus type), for traits related to climacteric maturation and ethylene production. Individuals in the RIL population exhibited various combinations of phenotypes that differed in the amount of ethylene produced, the early onset of ethylene production, and other phenotypes associated with ripening. We characterized a major QTL on chromosome 8, ETHQV8.1, which is sufficient to activate climacteric ripening, and other minor QTLs that may modulate the climacteric response. The ETHQV8.1 allele was validated by using two reciprocal introgression line populations generated by crossing Védrantais and Piel de Sapo and analyzing the ETHQV8.1 region in each of the genetic backgrounds. A Genome-wide association study (GWAS) using 211 accessions of the ssp. melo further identified two regions on chromosome 8 associated with the production of aromas, one of these regions overlapping with the 154.1 kb interval containing ETHQV8.1. The ETHQV8.1 region contains several candidate genes that may be related to fruit ripening. This work sheds light into the regulation mechanisms of a complex trait such as fruit ripening.

show abstract

“…Furthermore, during fruit ripening in Solanum lycopersicum among other species, DNA demethylases (DML & DME) are upregulated leading to gradual demethylation at loci of ripening genes such as CNR (Zhang et al 2018) which encodes a transcription factor CNR (colorless non-ripening). Mutants of cnr gene display hypermethylation at the promoter preventing binding of RIN (ripening inhibitor) (Gao et al 2019) transcription factor and lowered gene expression ( Fig. 6b).…”

Section: Development Of Reproductive Structuresmentioning

confidence: 99%

RNA directed DNA methylation and seed plant genome evolution

2020

View full text Add to dashboard Cite

RNA Directed DNA Methylation (RdDM) is a pathway that mediates de novo DNA methylation, an evolutionary conserved chemical modification of cytosine bases, which exists in living organisms and utilizes small interfering RNA. Plants utilize DNA methylation for transposable element (TE) repression, regulation of gene expression and developmental regulation. TE activity strongly influences genome size and evolution, therefore making DNA methylation a key component in understanding divergence in genome evolution among seed plants. Multiple proteins that have extensively been studied in model plant Arabidopsis thaliana catalyze RNA dependent DNA Methylation pathway along with small interfering RNA. Several developmental functions have also been attributed to DNA methylation. This review will highlight aspects of RdDM pathway dynamics, evolution and functions in seed plants with focus on recent findings on conserved and non-conserved attributes between angiosperms and gymnosperms to potentially explain how methylation has impacted variations in evolutionary and developmental complexity among them and advance current understanding of this crucial epigenetic pathway.

show abstract

Diversity and redundancy of the ripening regulatory networks revealed by the fruitENCODE and the new CRISPR/Cas9 CNR and NOR mutants

Cited by 121 publications

References 31 publications

Knockout of VvCCD8 gene in grapevine affects shoot branching

Knockout of VvCCD8 gene in grapevine affects shoot branching

Genetic dissection of climacteric fruit ripening in a melon population segregating for ripening behavior

RNA directed DNA methylation and seed plant genome evolution

Contact Info

Product

Resources

About