Bonjour,
Tout d'abord, merci d'avoir répondu!
Voici un example de mon fichier .bib:
@article{casano2000chlororespiration,
title = {Chlororespiration and Poising of Cyclic Electron Transport},
volume = {275},
url = {http://www.jbc.org/content/275/2/942.abstract},
doi = {10.1074/jbc.275.2.942},
abstract = {Polypeptides encoded by plastid genes form a complex
{(Ndh)} which could reduce plastoquinone with {NADH.} Through a terminal
oxidase, reduced plastoquinone would be oxidized in chlororespiration.
However, isolated Ndh complex has low activity with plastoquinone and no
terminal oxidase has been found in chloroplasts, thus the function of
Ndh complex is unknown. Alternatively, thylakoid hydroquinone peroxidase
could oxidize reduced plastoquinone with {HO.} By immunoaffinity
chromatography, we have purified the plastid Ndh complex of barley
{(L.)} to investigate the electron donor and acceptor specificity. A
detergent-containing system was reconstructed with thylakoid Ndh complex
and peroxidase which oxidized {NADH} with {HO} in a
plastoquinone-dependent process. This system and the increases of
thylakoid Ndh complex and peroxidase activities under photooxidative
stress suggest that the chlororespiratory process consists of the
sequence of reactions catalyzed by Ndh complex, peroxidase (acting on
reduced plastoquinone), superoxide dismutase, and the non-enzymic
one-electron transfer from reduced iron-sulfur protein {(FeSP)} to O.
When {FeSP} is a component of cytochrome
·complex or of the same Ndh complex, O may be reduced with {NADH,}
without requirement of light. Chlororespiration consumes reactive
species of oxygen and, eventually, may decrease their production by
lowering O concentration in chloroplasts. The common plastoquinone pool
with photosynthetic electron transport suggests that chlororespiratory
reactions may poise reduced and oxidized forms of the intermediates of
cyclic electron transport under highly fluctuating light intensities.},
number = {2},
journal = {Journal of Biological Chemistry},
author = {Leonardo M. Casano and Jose M. Zapata and Mercedes Martin
and Bartolome Sabater},
year = {2000},
pages = {942--948}
}
@article{muller2001nonphotochemical,
title = {Non-photochemical quenching. A response to excess light
energy},
volume = {125},
number = {4},
journal = {Plant Physiology},
author = {P. Muller and X. P Li and K. K Niyogi},
year = {2001},
pages = {1558}
}
@article{biol19931xuef,
title = {1. Xue F, Cooley L: kelch encodes a component of
intercellular bridges in Drosophila egg chambers.},
volume = {72},
shorttitle = {1. Xue F, Cooley L},
journal = {Cell},
author = {J. M Biol and T. C Biol and C. {O.S} Biol and J. S Biol
and T. B Sci and J. C Biol and G. Dev and C. {M.L} Sci and C. G Differ
and J. B Chem and others},
year = {1993},
pages = {681--693}
J'utilise le plugin lyz de zotero pour la générer. A première vue, cela
me semble correcte non?
Le 22/05/2010 10:46, [email protected] a écrit :
----- "lezburg"<[email protected]> a écrit :
A, Melis, L, Zhang, M, Forestier, M L, Ghirardi, and M, Seibert.
Sustained photobiological hy-
drogen gas production upon reversible inactivation of oxygen evolution
in the green alga
chlamydomonas reinhardtii. Plant Physiology, 122(1) :12736, 2000.
Le problème vient il me semble de la saisie de la base biblio elle-même :
apparemment, L, M, L M, et M sont vus comme des noms et pas des prénoms.
Il doit y avoir des virgules inappropriées
La source .bib doit contenir:
author = A. Melis and L. Zhang and M. Forestier and M. L. Ghirardi and M.
Seibert
où bien
Melis, A. and Zhang, L. and Forestier, M. and Ghirardi, M. L. and Seibert, M.
(la seconde forme est utile pour les noms composés, bibtex ne connaît que
les particules comme de Gaulle ou Von Stroheim, voir le manuel de Oren
Patashnik).
La séparation des noms d'auteurs par "and" est vitale pour le tri.
Ce message entrant est certifie; sans virus connu.
Analyse effectue;e par AVG -www.avg.fr
Version: 9.0.819 / Base de donne;es virale: 271.1.1/2889 - Date: 05/22/10
08:26:00
