Agriculture Reference
In-Depth Information
Lincoln, J.E. and Fischer, R.L. (1988) Regulation of gene-expression by ethylene in wild-type and
rin
tomato (
Lycopersicon esculentum
) fruit.
Plant Physiology
88, 370-374.
Liu, Y.S., Roof, S., Ye, Z.B., Barry, C., van Tuinen, A., Vrebalov, J., Bowler, C. and Giovannoni, J.
(2004) Manipulation of light signal transduction as a means of modifying fruit nutritional
quality in tomato.
Proceedings of the National Academy of Sciences USA
101, 9897-9902.
Manning, K., Tor, M., Poole, M., Hong, Y., Thompson, A.J., King, G.J., Giovannoni, J.J. and Seymour,
G.B. (2006) A naturally occurring epigenetic mutation in a gene encoding an SBP-box
transcription factor inhibits tomato fruit ripening.
Nature
Genetics
38, 948-952.
Martel, C., Vrebalov, J., Tafelmeyer, P. and Giovannoni, J.J. (2011) The tomato MADS-box
transcription factor RIPENING INHIBITOR interacts with promoters involved in numerous
ripening processes in a COLORLESS NONRIPENING-dependent manner.
Plant Physiology
157,
1568-1579.
Matas, A.J., Yeats, T.H., Buda, G.J., Zheng, Y., Chatterjee, S., Tohge, T., Ponnala, L., Adato, A.,
Aharoni, A., Stark, R., Fernie, A.R., Fei, Z.J., Giovannoni, J.J. and Rose, J.K.C. (2011) Tissue- and
cell-type specifi c transcriptome profi ling of expanding tomato fruit provides insights into
metabolic and regulatory specialization and cuticle formation.
Plant Cell
23, 3893-3910.
McCallum, C.M., Comai, L., Greene, E.A. and Henikoff, S. (2000a) Targeted screening for induced
mutations.
Nature
Biotechnology
18, 455-457.
McCallum, C.M., Comai, L., Greene, E.A. and Henikoff, S. (2000b) Targeting induced local lesions in
genomes (TILLING) for plant functional genomics.
Plant Physiology
123, 439-442.
Menda, N., Semel, Y., Peled, D., Eshed, Y. and Zamir, D. (2004)
In silico
screening of a saturated
mutation library of tomato.
Plant Journal
38, 861-872.
Mintz-Oron, S., Mandel, T., Rogachev, I., Feldberg, L., Lotan, O., Yativ, M., Wang, Z., Jetter, R.,
Venger, I., Adato, A. and Aharoni, A. (2008) Gene expression and metabolism in tomato fruit
surface tissues.
Plant Physiology
147, 823-851.
Mustilli, A.C., Fenzi, F., Ciliento, R., Alfano, F. and Bowler, C. (1999) Phenotype of the tomato
high
pigment-2
mutant is caused by a mutation in the tomato homolog of
DEETIOLATED1
.
Plant Cell
11, 145-157.
Nadakuduti, S.S., Pollard, M., Kosma, D.K., Allen, C.J., Ohlrogge, J.B. and Barry, C.S. (2012)
Pleiotropic phenotypes of the
sticky peel
(
pe
) mutant provide new insight into the role of
CUTIN
DEFICIENT 2
in epidermal cell function in tomato.
Plant Physiology
159, 945-960.
Nashilevitz, S., Melamed-Bessudo, C., Izkovich, Y., Rogachev, I., Osorio, S., Itkin, M., Adato, A.,
Pankratov, I., Hirschberg, J., Fernie, A.R., Wolf, S., Usadel, B., Levy, A.A., Rumeau, D. and
Aharoni, A. (2010) An
Orange Ripening
mutant links plastid NAD (P)H dehydrogenase complex
activity to central and specialized metabolism during tomato fruit maturation.
Plant Cell
22,
1977-1997.
Oeller, P.W., Min Wong, L., Taylor, L.P., Pike, D.A. and Theologis, A. (1991) Reversible inhibition of
tomato fruit senescence by antisense RNA.
Science
254, 437-439.
Okabe, Y., Asamizu, E., Saito, T., Matsukura, C., Ariizumi, T., Bres, C., Rothan, C., Mizoguchi, T. and
Ezura, H. (2011) Tomato TILLING technology: development of a reverse genetics tool for the
effi cient isolation of mutants from Micro-Tom mutant libraries.
Plant and Cell Physiology
52,
1994-2005.
Osorio, S., Alba, R., Damasceno, C.M.B., Lopez-Casado, G., Lohse, M., Zanor, M.I., Tohge, T., Usadel,
B., Rose, J.K.C., Fei, Z.J., Giovannoni, J.J. and Fernie, A.R. (2011) Systems biology of tomato fruit
development: combined transcript, protein, and metabolite analysis of tomato transcription
factor (
nor
,
rin
) and ethylene receptor (
Nr
) mutants reveals novel regulatory interactions.
Plant
Physiology
157, 405-425.
Paran, I. and van der Knaap, E. (2007) Genetic and molecular regulation of fruit and plant
domestication traits in tomato and pepper.
Journal of Experimental Botany
58, 3841-3852.
Park, S.Y., Yu, J.W., Park, J.S., Li, J., Yoo, S.C., Lee, N.Y., Lee, S.K., Jeong, S.W., Seo, H.S., Koh, H.J.,
Jeon, J.S., Park, Y.I. and Paek, N.C. (2007) The senescence-induced staygreen protein regulates
chlorophyll degradation.
Plant Cell
19, 1649-1664.
Pech, J.C., Bouzayen, M. and Latche, A. (2008) Climacteric fruit ripening: ethylene-dependent and
independent regulation of ripening pathways in melon fruit.
Plant Science
175, 114-120.
Perin, C., Gomez-Jimenez, M., Hagen, L., Dogimont, C., Pech, J.-C., Latche, A., Pitrat, M. and Lelievre,
J.-M. (2002) Molecular and genetic characterization of a non-climacteric phenotype in melon
reveals two loci conferring altered ethylene response in fruit.
Plant Physiology
129, 300-309.
Search WWH ::
Custom Search