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MeSH Review:

Plant Physiology

Lengauer, T., Hotson, A. et al., Hale, K.L. et al., Frías, I. et al., Milczarski, P. et al., et al.

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High impact information on Plant Physiology

This finding has profound implications for understanding plant physiology and development and for defining new modes of regulation of SCF ubiquitin ligase complexes [1].
The plant hormone auxin regulates plant physiology by modulating the interaction of transcription factors with auxin response elements (AuxREs) of the affected genes [2].
Sucrose to starch: a transition in molecular plant physiology [3].
The recent discovery that the effectors XopD, AvrXv4, AvrPphB, and AvrRpt2 have cysteine protease functions reveals that the proteolysis of host substrates is an important strategy employed by pathogens to alter plant physiology [4].
To elucidate plant mechanisms involved in molybdenum (Mo) sequestration and tolerance, Brassica spp. seedlings were supplied with molybdate, and the effects on plant physiology, morphology, and biochemistry were analyzed [5].

Anatomical context of Plant Physiology

The plasma membrane (PM) H(+)-ATPase has been proposed to play important transport and regulatory roles in plant physiology, including its participation in auxin-induced acidification in coleoptile segments [6].

Associations of Plant Physiology with chemical compounds

Several aspects of the relationship between Pro metabolism and plant physiology are discussed [7].
Heavy metal, such as cadmium, have a significant impact on plant physiology [8].
The proportional balances of free and/or protein-bound lysine, threonine, isoleucine and methionine are a function of protein synthesis, secondary metabolism and plant physiology [9].
The maintenance of normal higher plant physiology in the absence of particular sterols or in the presence of modified sterol ratios is controversial [10].
Three traits important for plant physiology, i.e. chlorophyll content, sensitivity to GA and sensitivity to ABA, were evaluated for 99 F2 families of the DS2 x RXL10 rye mapping population [11].

Gene context of Plant Physiology

These results provide first insight into the possible roles of PGM/bPGM in plant physiology and in plant-pathogen interactions [12].
These results were achieved within a cooperation funded by DFG and comprising Niko Beerenwinkel (MPI Saarbücken), Martin Däumer (Univ. Cologne), Daniel Hoffmann (caesar Bonn), Rolf Kaiser (Univ. Cologne), Klaus Korn (Univ. Erlangen), Joachim Selbig (MPI Plant Physiology, Golm) Barbara Schmidt (Univ. Erlangen) and Hauke Walter (Univ. Erlangen) [13].
PME action produces pectin with different structural and functional properties, having an important role in plant physiology [14].

References

A new FronTIR in targeted protein degradation and plant development. Nemhauser, J.L., Chory, J. Cell (2005) [Pubmed]
ARF1, a transcription factor that binds to auxin response elements. Ulmasov, T., Hagen, G., Guilfoyle, T.J. Science (1997) [Pubmed]
Sucrose to starch: a transition in molecular plant physiology. Fernie, A.R., Willmitzer, L., Trethewey, R.N. Trends Plant Sci. (2002) [Pubmed]
Cysteine proteases in phytopathogenic bacteria: identification of plant targets and activation of innate immunity. Hotson, A., Mudgett, M.B. Curr. Opin. Plant Biol. (2004) [Pubmed]
Molybdenum sequestration in Brassica species. A role for anthocyanins? Hale, K.L., McGrath, S.P., Lombi, E., Stack, S.M., Terry, N., Pickering, I.J., George, G.N., Pilon-Smits, E.A. Plant Physiol. (2001) [Pubmed]
A major isoform of the maize plasma membrane H(+)-ATPase: characterization and induction by auxin in coleoptiles. Frías, I., Caldeira, M.T., Pérez-Castiñeira, J.R., Navarro-Aviñó, J.P., Culiañez-Maciá, F.A., Kuppinger, O., Stransky, H., Pagés, M., Hager, A., Serrano, R. Plant Cell (1996) [Pubmed]
Developmental regulation of pyrroline-5-carboxylate reductase gene expression in Arabidopsis. Hua, X.J., van de Cotte, B., Van Montagu, M., Verbruggen, N. Plant Physiol. (1997) [Pubmed]
Inhibition of plant viral systemic infection by non-toxic concentrations of cadmium. Ghoshroy, S., Freedman, K., Lartey, R., Citovsky, V. Plant J. (1998) [Pubmed]
Arabidopsis loss-of-function mutant in the lysine pathway points out complex regulation mechanisms. Craciun, A., Jacobs, M., Vauterin, M. FEBS Lett. (2000) [Pubmed]
Steroid profiles of transgenic tobacco expressing an Actinomyces 3-hydroxysteroid oxidase gene. Heyer, J., Parker, B., Becker, D., Ruffino, J., Fordyce, A., Witt, M.D., Bedard, M., Grebenok, R. Phytochemistry (2004) [Pubmed]
The mapping of QTLS for chlorophyll content and responsiveness to gibberellic (GA3) and abscisic (ABA) acids in rye. Milczarski, P., Masojć, P. Cell. Mol. Biol. Lett. (2002) [Pubmed]
Expression of an Arabidopsis phosphoglycerate mutase homologue is localized to apical meristems, regulated by hormones, and induced by sedentary plant-parasitic nematodes. Mazarei, M., Lennon, K.A., Puthoff, D.P., Rodermel, S.R., Baum, T.J. Plant Mol. Biol. (2003) [Pubmed]
Analyzing resistance phenomena in HIV with bioinformatics methods. Lengauer, T. Bioinformatics (2003) [Pubmed]
Pectin methylesterase inhibitor. Giovane, A., Servillo, L., Balestrieri, C., Raiola, A., D'Avino, R., Tamburrini, M., Ciardiello, M.A., Camardella, L. Biochim. Biophys. Acta (2004) [Pubmed]

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