Literature DB >> 8522420

Biochemistry and molecular biology of chromoplast development.

B Camara1, P Hugueney, F Bouvier, M Kuntz, R Monéger.   

Abstract

Plant cells contain a unique class of organelles, designated the plastids, which distinguish them from animal cells. According to the largely accepted endosymbiotic theory of evolution, plastids are descendants of prokaryotes. This process requires several adaptative changes which involve the maintenance and the expression of part of the plastid genome, as well as the integration of the plastid activity to the cellular metabolism. This is illustrated by the diversity of plastids encountered in plant cells. For instance, in tissues undergoing color changes, i.e., flowers and fruits, the chromoplasts produce and accumulate excess carotenoids. In this paper we attempt to review the basic aspects of chromoplast development.

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Year:  1995        PMID: 8522420     DOI: 10.1016/s0074-7696(08)62211-1

Source DB:  PubMed          Journal:  Int Rev Cytol        ISSN: 0074-7696


  36 in total

1.  LEFPS1, a tomato farnesyl pyrophosphate gene highly expressed during early fruit development.

Authors:  J Gaffe; J P Bru; M Causse; A Vidal; L Stamitti-Bert; J P Carde; P Gallusci
Journal:  Plant Physiol       Date:  2000-08       Impact factor: 8.340

2.  Plastid and stromule morphogenesis in tomato.

Authors:  Kevin A Pyke; Caroline A Howells
Journal:  Ann Bot       Date:  2002-11       Impact factor: 4.357

3.  Physiology of pepper fruit and the metabolism of antioxidants: chloroplasts, mitochondria and peroxisomes.

Authors:  José M Palma; Francisca Sevilla; Ana Jiménez; Luis A del Río; Francisco J Corpas; Paz Álvarez de Morales; Daymi M Camejo
Journal:  Ann Bot       Date:  2015-07-28       Impact factor: 4.357

4.  The cauliflower Or gene encodes a DnaJ cysteine-rich domain-containing protein that mediates high levels of beta-carotene accumulation.

Authors:  Shan Lu; Joyce Van Eck; Xiangjun Zhou; Alex B Lopez; Diana M O'Halloran; Kelly M Cosman; Brian J Conlin; Dominick J Paolillo; David F Garvin; Julia Vrebalov; Leon V Kochian; Hendrik Küpper; Elizabeth D Earle; Jun Cao; Li Li
Journal:  Plant Cell       Date:  2006-12-15       Impact factor: 11.277

5.  Red bell pepper chromoplasts exhibit in vitro import competency and membrane targeting of passenger proteins from the thylakoidal sec and DeltapH pathways but not the chloroplast signal recognition particle pathway.

Authors:  E J Summer; K Cline
Journal:  Plant Physiol       Date:  1999-02       Impact factor: 8.340

6.  The capsanthin-capsorubin synthase gene: a candidate gene for the y locus controlling the red fruit colour in pepper.

Authors:  V Lefebvre; M Kuntz; B Camara; A Palloix
Journal:  Plant Mol Biol       Date:  1998-03       Impact factor: 4.076

7.  Developmental and stress regulation of gene expression for plastid and cytosolic isoprenoid pathways in pepper fruits.

Authors:  P Hugueney; F Bouvier; A Badillo; J Quennemet; A d'Harlingue; B Camara
Journal:  Plant Physiol       Date:  1996-06       Impact factor: 8.340

8.  Dedicated roles of plastid transketolases during the early onset of isoprenoid biogenesis in pepper fruits1.

Authors:  F Bouvier; A d'Harlingue; C Suire; R A Backhaus; B Camara
Journal:  Plant Physiol       Date:  1998-08       Impact factor: 8.340

9.  Proteomic analysis of chloroplast-to-chromoplast transition in tomato reveals metabolic shifts coupled with disrupted thylakoid biogenesis machinery and elevated energy-production components.

Authors:  Cristina Barsan; Mohamed Zouine; Elie Maza; Wanping Bian; Isabel Egea; Michel Rossignol; David Bouyssie; Carole Pichereaux; Eduardo Purgatto; Mondher Bouzayen; Alain Latché; Jean-Claude Pech
Journal:  Plant Physiol       Date:  2012-08-20       Impact factor: 8.340

10.  Carotenoid crystal formation in Arabidopsis and carrot roots caused by increased phytoene synthase protein levels.

Authors:  Dirk Maass; Jacobo Arango; Florian Wüst; Peter Beyer; Ralf Welsch
Journal:  PLoS One       Date:  2009-07-28       Impact factor: 3.240
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