Access the full text.
Sign up today, get DeepDyve free for 14 days.
P. Polowick, V. Sawhney (1986)
A SCANNING ELECTRON MICROSCOPIC STUDY ON THE INITIATION AND DEVELOPMENT OF FLORAL ORGANS OF BRASSICA NAPUS (CV. WESTAR)American Journal of Botany, 73
W. McGinnis, M. Levine, M. Levine, E. Hafen, E. Hafen, A. Kuroiwa, W. Gehring (1984)
A conserved DNA sequence in homoeotic genes of the Drosophila Antennapedia and bithorax complexesNature, 308
(1970)
Sex expression in flowering plants
M. Komaki, K. Okada, E. Nishino, Y. Shimura (1988)
Isolation and characterization of novel mutants of Arabidopsis thaliana defective in flower developmentDevelopment, 104
J. Bowman, D. Smyth, E. Meyerowitz (1989)
Genes directing flower development in Arabidopsis.The Plant cell, 1
F. Cusick (1956)
VIII.—Studies of Floral Morphogenesis. I. Median Bisections of Flower Primordia in Primula bulleyana ForrestTransactions of the Royal Society of Edinburgh, 63
E. Meyerowitz, R. Pruitt (1985)
Arabidopsis thaliana and Plant Molecular GeneticsScience, 229
E. Lewis (1978)
A gene complex controlling segmentation in DrosophilaNature, 276
A. Arber (1931)
STUDIES IN FLORAL MORPHOLOGY1. II. ON SOME NORMAL AND ABNORMAL CRUCIFERS: WITH A DISCUSSION ON TERATOLOGY AND ATAVISMNew Phytologist, 30
J. Hill, E. Lord (1989)
Floral development in Arabidopsis thaliana: a comparison of the wild type and the homeotic pistillata mutantBotany, 67
M. Koornneef, J. Vaneden, Cj Hanhart, P. Stam, F. Braaksma, W. Feenstra (1983)
Linkage map of Arabidopsis thalianaJournal of Heredity, 74
A. Laughon, M. Scott (1984)
Sequence of a Drosophila segmentation gene: protein structure homology with DNA-binding proteinsNature, 310
P. Ingham (1988)
The molecular genetics of embryonic pattern formation in DrosophilaNature, 335
E. Meyerowitz, David Smyth, J. Bowman (1989)
Abnormal flowers and pattern formation in floral development
M. Koornneef, L. Dellaert, J. Veen (1982)
EMS- and radiation-induced mutation frequencies at individual loci in Arabidopsis thaliana (L.) Heynh.Mutation research, 93 1
M. Koornneef, L. Dellaert, J. Veen (1982)
EMS- and relation-induced mutation frequencies at individual loci in Arabidopsis thaliana (L.) HeynhMutation Research, 93
J. Shepherd, W. McGinnis, A. Carrasco, E. Robertis, W. Gehring (1984)
Fly and frog homoeo domains show homologies with yeast mating type regulatory proteinsNature, 310
E. Meyerowitz, D. Smyth, J. Bowman (1989)
Abnormal flowers and pattern formation in floralDevelopment, 106
Ljerka Kunst, Jennifer Klenz, J. Martínez-Zapater, G. Haughn (1989)
AP2 Gene Determines the Identity of Perianth Organs in Flowers of Arabidopsis thaliana.The Plant cell, 1
G. Hicks, I. Sussex (1970)
Development in vitro of excised flower primordia of Nicotiana tabacum.Botany, 48
K. Okada, M. Komaki, Y. Shimura (1989)
Mutational analysis of pistil structure and development of Arabidopsis thaliana.Cell differentiation and development : the official journal of the International Society of Developmental Biologists, 28 1
G. Hicks, I. Sussex (1971)
Organ Regeneration in Sterile Culture After Median Bisection of the Flower Primordia of Nicotiana tabacumBotanical Gazette, 132
(1955)
The morphology and growth of the vegetative and reproductive apices of Arabidopsis thaliana (L.) Heynh., Capsella bursa-pastoris
N. Battey, R. Lyndon (1984)
Changes in Apical Growth and Phyllotaxis on Flowering and Reversion in Impatiens balsamina L.Annals of Botany, 54
H. Sommer, J. Beltrán, P. Huijser, H. Pape, Wolf-Ekkehard Lonnig, H. Saedler, Z. Schwarz‐Sommer (1990)
Deficiens, a homeotic gene involved in the control of flower morphogenesis in Antirrhinum majus: the protein shows homology to transcription factors.The EMBO Journal, 9
N. Holder (1979)
Positional information and pattern formation in plant morphogenesis and a mechanism for the involvement of plant hormones.Journal of theoretical biology, 77 2
W. McGinnis (1985)
Homeo box sequences of the Antennapedia class are conserved only in higher animal genomes.Cold Spring Harbor symposia on quantitative biology, 50
K. Tatchell, D. Chaleff, D. Defeo-jones, E. Scolnick (1984)
Requirement of either of a pair of ras-related genes of Saccharomyces cerevisiae for spore viabilityNature, 309
(1980)
lnfluence of leaves and roots on meristem development in Nicotiana tabacum L
Capsella bursa-pastoris (L.) Medic. and Anagalla arvensis L
G. Haughn, C. Somerville (1988)
Genetic control of morphogenesis in ArabidopsisDevelopmental Genetics, 9
(1980)
The regulation of floral organ initiation
M. Akam (1987)
The molecular basis for metameric pattern in the Drosophila embryo.Development, 101 1
S. Singer, C. McDaniel (1986)
Floral determination in the terminal and axillary buds of Nicotiana tabacum LDevelopmental Biology, 118
Abstract We have characterized the floral phenotypes produced by the recessive homeotic apetala 1-1 (ap1-1) mutation in Arabidopsis. Plants homozygous for this mutation display a homeotic conversion of sepsis into brachts and the concomitant formation of floral buds in the axil of each transformed sepal. In addition, these flowers lack petals. We show that the loss of petal phenotype is due to the failure of petal primordia to be initiated. We have also constructed double mutant combinations with ap1 and other mutations affecting floral development. Based on these results, we suggest that the AP1 and the apetala 2 (AP2) genes may encode similar functions that are required to define the pattern of where floral organs arise, as well as for determinate development of the floral meristem. We propose that the AP1 and AP2 gene products act in concert with the product of the agamous (AG) locus to establish a determinate floral meristem, whereas other homeotic gene products are required for cells to differentiate correctly according to their position. These results extend the proposed role of the homeotic genes in floral development and suggest new models for the establishment of floral pattern. This content is only available as a PDF. © 1990 by American Society of Plant Biologists This article is published and distributed under the terms of the Oxford University Press, Standard Journals Publication Model (https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model)
The Plant Cell – Oxford University Press
Published: Aug 1, 1990
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.