Agriculture Reference
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Galpaz, N., Wang, Q., Menda, N., Zamir, D. and Hirschberg, J. (2008) Abscisic acid defi ciency in the
tomato mutant
high-pigment 3
leading to increased plastid number and higher fruit lycopene
content.
Plant Journal
53, 717-730.
Gimenez, E., Pineda, B., Capel, J., Teresa Anton, M., Atares, A., Perez-Martin, F., Garcia-Sogo, B.,
Angosto, T., Moreno, V. and Lozano, R. (2010) Functional analysis of the
Arlequin
mutant
corroborates the essential role of the
ARLEQUIN/TAGL1
gene during reproductive development
of tomato.
PLOS One
5, e14427.
Harada, T., Sunako, T., Wakasa, Y., Soejima, J., Satoh, T. and Niizeki, M. (2000) An allele of the
1-aminocyclopropane-1-carboxylate synthase gene (
Md-ACS1
) accounts for the low level of
ethylene production in climacteric fruits of some apple cultivars.
Theoretical and Applied
Genetics
101, 742-746.
Hobson, G.E., Nichols, R., Davies, J.N. and Atkey, P.T. (1984) The inhibition of tomato
Lycopersicon
esculentum
fruit ripening by silver.
Journal of Plant Physiology
116, 21-30.
Isaacson, T., Kosma, D.K., Matas, A.J., Buda, G.J., He, Y.H., Yu, B.W., Pravitasari, A., Batteas, J.D.,
Stark, R.E., Jenks, M.A. and Rose, J.K.C. (2009) Cutin defi ciency in the tomato fruit cuticle
consistently affects resistance to microbial infection and biomechanical properties, but not
transpirational water loss.
Plant Journal
60, 363-377.
Itkin, M., Seybold, H., Breitel, D., Rogachev, I., Meir, S. and Aharoni, A. (2009)
TOMATO
AGAMOUS-LIKE 1
is a component of the fruit ripening regulatory network.
Plant Journal
60,
1081-1095.
Ito, Y., Kitagawa, M., Ihashi, N., Yabe, K., Kimbara, J., Yasuda, J., Ito, H., Inakuma, T., Hiroi, S. and
Kasumi, T. (2008) DNA-binding specifi city, transcriptional activation potential, and the rin
mutation effect for the tomato fruit-ripening regulator RIN.
Plant Journal
55, 212-223.
Jaakola, L., Poole, M., Jones, M.O., Kamarainen-Karppinen, T., Koskimaki, J.J., Hohtola, A., Haggman,
H., Fraser, P.D., Manning, K., King, G.J., Thomson, H. and Seymour, G.B. (2010) A SQUAMOSA
MADS box gene involved in the regulation of anthocyanin accumulation in bilberry fruits.
Plant
Physiology
153, 1619-1629.
Javelle, M., Vernoud, V., Depege-Fargeix, N., Arnould, C., Oursel, D., Domergue, F., Sarda, X. and
Rogowsky, P.M. (2010) Overexpression of the epidermis-specifi c homeodomain-leucine zipper
IV transcription factor
OUTER CELL LAYER1
in maize identifi es target genes involved in lipid
metabolism and cuticle biosynthesis.
Plant Physiology
154, 273-286.
Jia, H.F., Chai, Y.M., Li, C.L., Lu, D., Luo, J.J., Qin, L. and Shen, Y.Y. (2011) Abscisic acid plays an
important role in the regulation of strawberry fruit ripening.
Plant Physiology
157, 188-199.
Klee, H.J. and Giovannoni, J.J. (2011) Genetics and control of tomato fruit ripening and quality
attributes.
Annual Review
of Genetics
45, 41-59.
Kobayashi, S., Goto-Yamamoto, N. and Hirochika, H. (2004) Retrotransposon-induced mutations in
grape skin color.
Science
304, 982.
Kolotilin, I., Koltai, H., Tadmor, Y., Bar-Or, C., Reuveni, M., Meir, A., Nahon, S., Shlomo, H., Chen, L.
and Levin, I. (2007) Transcriptional profi ling of
high pigment-2
(
dg
) tomato mutant links early
fruit plastid biogenesis with its overproduction of phytonutrients.
Plant Physiology
145, 389-
401.
Kosma, D.K., Bourdenx, B., Bernard, A., Parsons, E.P., Lu, S., Joubes, J. and Jenks, M.A. (2009) The
impact of water defi ciency on leaf cuticle lipids of Arabidopsis.
Plant Physiology
151, 1918-
1929.
Kovacs, K., Fray, R.G., Tikunov, Y., Graham, N., Bradley, G., Seymour, G.B., Bovy, A.G. and Grierson,
D. (2009) Effect of tomato pleiotropic ripening mutations on fl avour volatile biosynthesis.
Phytochemistry
70, 1003-1008.
Lanahan, M.B., Yen, H.-C., Giovannoni, J.J. and Klee, H.J. (1994) The
Never ripe
mutation blocks
ethylene perception in tomato.
Plant Cell
6, 521-530.
Leide, J., Hildebrandt, U., Vogg, G. and Riederer, M. (2011) The
positional sterile
(
ps
) mutation
affects cuticular transpiration and wax biosynthesis of tomato fruits.
Journal of Plant Physiology
168, 871-877.
Li-Beisson, Y., Shorrosh, B., Beisson, F., Andersson, M.X., Arondel, V., Bates, P.D., Baud, S.B., Bird,
D., DeBono, A., Durrett, T.P., Franke, R.B., Graham, I.A., Katayama, K., Kelly, A.L.A., Larson, T.,
Markham, J.E., Miquel, M., Molina, I., Nishida, I., Rowland, O., Samuels, L., Schmid, K.M.,
Wada, H., Welti, R., Xu, C., Zallot, R.M. and Ohlrogge, J. (2010) Acyl-lipid metabolism.
The
Arabidopsis Book
8, e0133.
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