Whole transcriptome sequencing reveals genes involved in plastid/chloroplast division and development are regulated by the HP1/DDB1 at an early stage of tomato fruit development

The phenotype of tomato high pigment-1 (hp1) mutant is characterized by overproduction of pigments including chlorophyll and carotenoids during fruit development and ripening. Although the increased plastid compartment size has been thought to largely attribute to the enhanced pigmentation, the mole...

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Bibliographic Details
Published in:Planta 2013-11, Vol.238 (5), p.923-936
Main Authors: Tang, Xiaofeng, Tang, Zizhi, Huang, Shengxiong, Liu, Jikai, Liu, Jia, Shi, Wei, Tian, Xuefen, Li, Yuxiang, Zhang, Danfeng, Yang, Jian, Gao, Yongfeng, Zeng, Deer, Hou, Pei, Niu, Xiangli, Cao, Ying, Li, Guangwei, Li, Xiao, Xiao, Fangming, Liu, Yongsheng
Format: Article
Language:English
Subjects:
3' Untranslated Regions - genetics
5' Untranslated Regions - genetics
Agriculture
alternative splicing
Alternative Splicing - genetics
Biomedical and Life Sciences
Carotenoids
chlorophyll
Chlorophylls
Chloroplasts
data collection
Developmental stages
early development
Ecology
Exons
Forestry
Fruit - genetics
Fruit - growth & development
fruiting
Fruits
Gene Expression Regulation, Developmental
Gene Expression Regulation, Plant
Gene Ontology
Genes
Genes, Plant - genetics
Genomes
Life Sciences
Lycopersicon esculentum
Lycopersicon esculentum - genetics
Lycopersicon esculentum - growth & development
Molecular Sequence Annotation
mutants
Original Article
pericarp
phenotype
Pigmentation
pigments
Plant cells
Plant Proteins - genetics
Plant Proteins - metabolism
Plant Sciences
Plants
Plastids
Plastids - genetics
Reproducibility of Results
Reverse Transcriptase Polymerase Chain Reaction
ripening
RNA, Messenger - genetics
RNA, Messenger - metabolism
Sequence Analysis, RNA
Tomatoes
transcription (genetics)
Transcription, Genetic
transcriptome
Transcriptome - genetics
Untranslated regions
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Summary:The phenotype of tomato high pigment-1 (hp1) mutant is characterized by overproduction of pigments including chlorophyll and carotenoids during fruit development and ripening. Although the increased plastid compartment size has been thought to largely attribute to the enhanced pigmentation, the molecular aspects of how the HP1/DDB1 gene manipulates plastid biogenesis and development are largely unknown. In the present study, we compared transcriptome profiles of immature fruit pericarp tissue between tomato cv. Ailsa Craig (WT) and its isogenic hp1 mutant. Over 20 million sequence reads, representing > 1.6 Gb sequence data per sample, were generated and assembled into 21,972 and 22,167 gene models in WT and hp1, respectively, accounting for over 60 % official gene models in both samples. Subsequent analyses revealed that 8,322 and 7,989 alternative splicing events, 8833 or 8510 extended 5′-UTRs, 8,263 or 8,939 extended 3′-UTRs, and 1,136 and 1,133 novel transcripts, exist in WT and hp1, respectively. Significant differences in expression level of 880 genes were detected between the WT and hp1, many of which are involved in signaling transduction, transcription regulation and biotic and abiotic stresses response. Distinctly, RNA-seq datasets, quantitative RT-PCR analyses demonstrate that, in hp1 mutant pericarp tissue at early developmental stage, an apparent expression alteration was found in several regulators directly involved in plastid division and development. These results provide a useful reference for a more accurate and more detailed characterization of the molecular process in the development and pigmentation of tomato fruits.
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-013-1942-9