Interrelationship of Gene Expression, Polysome Prevalence, and Respiration During Ripening of Ethylene And/or Cyanide-Treated Avocado Fruit

Overview

Journal Plant Physiol

Specialty Physiology

Date 1984 Feb 1

PMID 16663414

Citations 28

Authors

M L Tucker

G G Laties

Affiliations

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Abstract

Upon initiation of ripening in avocado fruit (Persea americana Mill. cv Hass) with 10 microliters/liter ethylene, polysome prevalence and associated poly(A)(+) mRNA increase approximately 3-fold early in the respiratory climacteric and drop off to preclimacteric levels at the peak of the respiratory climacteric. The increase in poly(A)(+) mRNA on polysomes early in the respiratory climacteric constitutes a generic increase in constitutive mRNAs. New gene expression associated with ripening is minimal but evident after 10 hours of ethylene treatment and continues to increase relative to constitutive gene expression throughout the climacteric. The respiratory climacteric can be temporally separated into two phases. The first phase is associated with a general increase in protein synthesis, whereas the second phase reflects new gene expression and accumulation of corresponding proteins which may be responsible for softening and other ripening characteristics. A major new message on polysomes that arises concomitantly with the respiratory climacteric codes for an in vitro translation product of 53 kilodaltons which is immunoprecipitated by antiserum against avocado fruit cellulase.Cyanide at 500 microliters/liter fails to affect the change in polysome prevalance or new gene expression associated with the ethylene-evoked climacteric in avocado fruit. Treatment of fruit with 500 microliters/liter cyanide alone initiates a respiratory increase within 4 hours, ethylene biosynthesis within 18 hours, and new gene expression akin to that educed by ethylene within 20 hours of exposure to cyanide.

Citing Articles

Ethylene-regulated gene transcription in carrot roots.

Nichols S, Laties G Plant Mol Biol. 2013; 3(6):393-401.

PMID: 24310573 DOI: 10.1007/BF00033387.

Cellulase gene expression in ripening avocado fruit: The accumulation of cellulase mRNA and protein as demonstrated by cDNA hybridization and immunodetection.

Christoffersen R, Tucker M, Laties G Plant Mol Biol. 2013; 3(6):385-91.

PMID: 24310572 DOI: 10.1007/BF00033386.

Isolation and characterisation of cDNA clones for tomato polygalacturonase and other ripening-related proteins.

Slater A, Maunders M, Edwards K, Schuch W, Grierson D Plant Mol Biol. 2013; 5(3):137-47.

PMID: 24306649 DOI: 10.1007/BF00015677.

Avocado cellulase: nucleotide sequence of a putative full-length cDNA clone and evidence for a small gene family.

Tucker M, Durbin M, Clegg M, Lewis L Plant Mol Biol. 2013; 9(3):197-203.

PMID: 24276968 DOI: 10.1007/BF00166456.

Avocado fruit protoplasts: a cellular model system for ripening studies.

Percival F, Cass L, Bozak K, Christoffersen R Plant Cell Rep. 2013; 10(10):512-6.

PMID: 24221285 DOI: 10.1007/BF00234584.

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