With papaya fruit ( Carica papaya ) as an experimental material, variations of its physiological indices were investigated through hypobaric hypoxia (HH, 10 kPa, 1.5 kPa O 2) treatment followed by fumigation with ...With papaya fruit ( Carica papaya ) as an experimental material, variations of its physiological indices were investigated through hypobaric hypoxia (HH, 10 kPa, 1.5 kPa O 2) treatment followed by fumigation with 1-methylcyclopropene (1-MCP), so as to discuss the effect of interaction between 1-MCP and internal ethylene on ripening of papaya fruit during postharvest storage. The results indicated that HH treatment significantly reduced internal ethylene concentration (IEC) by 57.6%. However, there were no remarkable differences in other physiological indices between various treatments and control (CK). The 1-MCP and HH+1-MCP treatments could significant postpone the softening process and color change of papaya fruit. The two treatments achieved the effects of significantly inhibiting the occurrence of fruit disease and the increase of pericarp cell membrane permeability, effectively delaying the variation of soluble solid and Vc contents, and better maintaining soluble solid and Vc contents in fruit, thereby better keeping nutritional substances and flavor quality in fruit in later storage period and prolonging the storage time of fruit.展开更多
Tomato has emerged as an emblematic model plants for fleshy fruit research and tomato fruit ripening is a complex and highly coordinated developmental process.The many physiology and biochemical processes associated w...Tomato has emerged as an emblematic model plants for fleshy fruit research and tomato fruit ripening is a complex and highly coordinated developmental process.The many physiology and biochemical processes associated with tomato fruit ripening require changes in the expression of hundreds to thousands of genes.Gene expression is regulated by transcriptional and post-transcriptional pathways,one of the recently discovered mechanisms in plants was small RNAs mediated gene silencing at post-transcriptional(PTGS) level.Intriguingly,several mi RNAs and endogenous si RNAs were revealed to be involved in the fruit ripening process which opened a new avenue in the field of fleshy fruit biology.This review compiled the most recent advances made in deciphering the regulation functions of mi RNAs and si RNAs in tomato fruit ripening.It also emphasized the new perspectives now possible in the small RNAs regulation research in tomato fruit ripening and senescence.展开更多
基金Supported by National Tropical Crop Germplasm Resource Platform Construction Project(2014-073)
文摘With papaya fruit ( Carica papaya ) as an experimental material, variations of its physiological indices were investigated through hypobaric hypoxia (HH, 10 kPa, 1.5 kPa O 2) treatment followed by fumigation with 1-methylcyclopropene (1-MCP), so as to discuss the effect of interaction between 1-MCP and internal ethylene on ripening of papaya fruit during postharvest storage. The results indicated that HH treatment significantly reduced internal ethylene concentration (IEC) by 57.6%. However, there were no remarkable differences in other physiological indices between various treatments and control (CK). The 1-MCP and HH+1-MCP treatments could significant postpone the softening process and color change of papaya fruit. The two treatments achieved the effects of significantly inhibiting the occurrence of fruit disease and the increase of pericarp cell membrane permeability, effectively delaying the variation of soluble solid and Vc contents, and better maintaining soluble solid and Vc contents in fruit, thereby better keeping nutritional substances and flavor quality in fruit in later storage period and prolonging the storage time of fruit.
基金Supported by the National Natural Sciences Foundation of China(31401536)the Natural Science Foundation of Beijing(6144020)+1 种基金the Special Fund of China Agriculture Research System(CARS-25)the Special Fund for Agro-scientific Research in the Public Interest(201203095)
文摘Tomato has emerged as an emblematic model plants for fleshy fruit research and tomato fruit ripening is a complex and highly coordinated developmental process.The many physiology and biochemical processes associated with tomato fruit ripening require changes in the expression of hundreds to thousands of genes.Gene expression is regulated by transcriptional and post-transcriptional pathways,one of the recently discovered mechanisms in plants was small RNAs mediated gene silencing at post-transcriptional(PTGS) level.Intriguingly,several mi RNAs and endogenous si RNAs were revealed to be involved in the fruit ripening process which opened a new avenue in the field of fleshy fruit biology.This review compiled the most recent advances made in deciphering the regulation functions of mi RNAs and si RNAs in tomato fruit ripening.It also emphasized the new perspectives now possible in the small RNAs regulation research in tomato fruit ripening and senescence.
