Advertisement
JOURNAL ARTICLES
Dissection of sexual organ ontogenesis: a genetic analysis of ovule development in Arabidopsis thaliana
K. Schneitz, M. Hulskamp, S.D. Kopczak, R.E. Pruitt
Development 1997 124: 1367-1376;

Summary

Understanding organogenesis remains a major challenge in biology. Specification, initiation, pattern formation and cellular morphogenesis, have to be integrated to generate the final three-dimensional architecture of a multicellular organ. To tackle this problem we have chosen the ovules of the flowering plant Arabidopsis thaliana as a model system. In a first step towards a functional analysis of ovule development, we performed a large-scale genetic screen and isolated a number of sterile mutants with aberrant ovule development, We provide indirect genetic evidence for the existence of proximal-distal pattern formation in the Arabidopsis ovule primordium. The analysis of the mutants has identified genes that act at an intermediate regulatory level and control initiation of morphogenesis in response to proximal-distal patterning. A second group of genes functions at a subordinate control level and regulates general cellular processes of morphogenesis. A large group of male and female sterile mutants shows defects restricted to early or late gametogenesis. In addition, we propose that the mature ovule obtains its overall curved shape by at least three different processes that act in only one domain of the ovule.

REFERENCES

    1. Angenent G. C.,
    2. Franken J.,
    3. Busscher M.,
    4. van Dijken A.,
    5. van Went J. L.,
    6. Dons H. J. M.,
    7. van Tunen A. J.
    (1995) A novel class of MADS box genes is involved in ovule development in Petunia. Plant Cell 7, 15691582
    OpenUrlAbstract/FREE Full Text
    1. Benavante R. S.,
    2. Skorupska H.,
    3. Palmer R. G.,
    4. Shoemaker R.
    (1989) Embryo sac development in the cv. ks male sterile, female sterile line of soybean (Glycine max). Amer. J. Bot 76, 17591768
    OpenUrlCrossRef
    1. Bowman J. L.,
    2. Sakai H.,
    3. Jack T.,
    4. Weigel D.,
    5. Mayer U.,
    6. Meyerowitz E. M.
    (1992) SUPERMAN, a regulator of floral homeotic genes in Arabidopsis. Development 114, 599615
    OpenUrlAbstract
    1. Coen E. S.,
    2. Meyerowitz E. M.
    (1991) The war of the whorls: genetic interactions controlling flower development. Nature 353, 3137
    OpenUrlCrossRefPubMedWeb of Science
    1. Colombo L.,
    2. Franken J.,
    3. Koetje E.,
    4. van Went J.,
    5. Dons H. J. M.,
    6. Angenent G. C.,
    7. van Tunen A. J.
    (1995) The petunia MADS box gene FBP11 determines ovule identity. Plant Cell 7, 18591868
    OpenUrlAbstract/FREE Full Text
    1. Elliott R. C.,
    2. Betzner A. S.,
    3. Huttner E.,
    4. Oakes M. P.,
    5. Tucker W. Q. J.,
    6. Gerentes D.,
    7. Perez P.,
    8. Smyth D. R.
    (1996) AINTEGUMENTA, an APETALA2 -like gene of Arabidopsis with pleiotropic roles in ovule development and floral organ growth. Plant Cell 8, 155168
    OpenUrlAbstract/FREE Full Text
    1. Evans P. T.,
    2. Malmberg R. L.
    (1989) Alternative pathways of tobacco placental development: time of commitment and analysis of a mutant. Dev. Biol 136, 273283
    OpenUrlCrossRefPubMedWeb of Science
    1. Gaiser J. C.,
    2. Robinson-Beers K.,
    3. Gasser C. S.
    (1995) The Arabidopsis SUPERMAN gene mediates asymmetric growth of the outer integument of ovules. Plant Cell 7, 333345
    OpenUrlAbstract/FREE Full Text
    1. Huang B.-Q.,
    2. Sheridan W. F.
    (1996) Embryo sac development in the maize indeterminate gametophyte1 mutant: abnormal nuclear behavior and defective microtubule organization. Plant Cell 8, 13911407
    OpenUrlAbstract/FREE Full Text
    1. Hulskamp M.,
    2. Schneitz K.,
    3. Pruitt R. E.
    (1995) Genetic evidence for a long range activity that directs pollen tube guidance in Arabidopsis. Plant Cell 7, 5764
    OpenUrlAbstract/FREE Full Text
    1. Jofuku K. D.,
    2. den Boer B. G. W.,
    3. Van Montagu M.,
    4. Okamuro J. K.
    (1994) Control of Arabidopsis flower and seed development by the homeotic gene APETALA2. Plant Cell 6, 12111225
    OpenUrlAbstract/FREE Full Text
    1. Kennell J. C.,
    2. Horner H. T.
    (1985) Influence of the soybean male-sterile gene (ms1) on the development of the female gametophyte. Can. J. Genet. Cytol 27, 200209
    OpenUrl
    1. Kermicle J. L.
    (1971) Pleiotropic effects on seed development of the indeterminate gametophyte gene in maize. Amer. J. Bot 58, 17
    OpenUrlCrossRefWeb of Science
    1. Klucher K. M.,
    2. Chow H.,
    3. Reiser L.,
    4. Fischer R. L.
    (1996) The AINTEGUMENTA gene of Arabidopsis required for ovule and female gametophyte development is related to the floral homeotic gene APETALA2. Plant Cell 8, 137153
    OpenUrlAbstract/FREE Full Text
    1. Lang J. D.,
    2. Ray S.,
    3. Ray A.
    (1994) sin1, a mutation affecting female fertility in Arabidopsis, interacts with mod1, its recessive modifier. Genetics 137, 11011110
    OpenUrlAbstract/FREE Full Text
    1. Leon-Kloosterziel K. M.,
    2. Keijzer C. J.,
    3. Koornneef M.
    (1994) A seed shape mutant of Arabidopsis that is affected in integument development. Plant Cell 6, 385392
    OpenUrlAbstract/FREE Full Text
    1. Lin B.-Y.
    (1978) Structural modifications of the female gametophyte associated with the indeterminate gametophyte (ig) mutant in maize. Can. J. Genet. Cytol 20, 249257
    OpenUrlCrossRef
    1. Liu Z.,
    2. Meyerowitz E. M.
    (1995) LEUNIG regulates AGAMOUS expression in Arabidopsis flowers. Development 121, 975991
    OpenUrlAbstract
    1. Ma H.
    (1994) The unfolding drama of flower development: recent results from genetic and molecular analyses. Genes Dev 8, 745756
    OpenUrlFREE Full Text
    1. Ma H.,
    2. Yanofsky M. F.,
    3. Meyerowitz E. M.
    (1991) AGL1 - ALG6, an Arabidopsis gene family with similarity to floral homeotic and transcription factor genes. Genes Dev 5, 484495
    OpenUrlAbstract/FREE Full Text
    1. Mansfield S. G.,
    2. Briarty L. G.,
    3. Erni S.
    (1991) Early embryogenesis in Arabidopsis thaliana. I. The mature embryo sac. Can. J. Bot 69, 447460
    OpenUrlCrossRefWeb of Science
    1. Mayer U.,
    2. Torres Ruiz R. A.,
    3. Berleth T.,
    4. Misera S.,
    5. Jurgens G.
    (1991) Mutations affecting body organization in the Arabidopsis embryo. Nature 353, 402407
    OpenUrlCrossRef
    1. Modrusan Z.,
    2. Reiser L.,
    3. Feldmann K. A.,
    4. Fischer R. L.,
    5. Haughn G. W.
    (1994) Homeotic transformation of ovules into carpel-like structures in Arabidopsis. Plant Cell 6, 333349
    OpenUrlAbstract/FREE Full Text
    1. Ray A.,
    2. Robinson-Beers K.,
    3. Ray S.,
    4. Baker S. C.,
    5. Lang J. D.,
    6. Preuss D.,
    7. Milligan S. B.,
    8. Gasser C. S.
    (1994) Arabidopsis floral homeotic gene BELL (BEL1) controls ovule development through negative regulation of AGAMOUS gene (AG). Proc. Natl. Acad. Sci. USA 91, 57615765
    OpenUrlAbstract/FREE Full Text
    1. Reiser L.,
    2. Fischer R. L.
    (1993) The ovule and the embryo sac. Plant Cell 5, 12911301
    OpenUrlFREE Full Text
    1. Reiser L.,
    2. Modrusan Z. L. M.,
    3. Samach A.,
    4. Ohad N.,
    5. Haughn G. W.,
    6. Fischer R. L.
    (1995) The BELL1 gene encodes a homeodomain protein involved in pattern formation in the Arabidopsis ovule primordium. Cell 83, 735742
    OpenUrlCrossRefPubMedWeb of Science
    1. Robinson-Beers K.,
    2. Pruitt R. E.,
    3. Gasser C. S.
    (1992) Ovule development in wild-type Arabidopsis and two female-sterile mutants. Plant Cell 4, 12371249
    OpenUrlAbstract/FREE Full Text
    1. Rounsley S. D.,
    2. Ditta G. S.,
    3. Yanofsky M. F.
    (1995) Diverse roles for MADS box genes in Arabidopsis development. Plant Cell 7, 12591269
    OpenUrlAbstract/FREE Full Text
    1. Sakai H.,
    2. Medrano L. J.,
    3. Meyerowitz E. M.
    (1995) Role of SUPERMAN in maintaining Arabidopsis floral whorl boundaries. Nature 378, 199203
    OpenUrlCrossRefPubMedWeb of Science
    1. Savidge B.,
    2. Rounsley S. D.,
    3. Yanofsky M.
    (1995) Temporal relationship between the transcription of two Arabidopsis MADS box genes and the floral organ identity genes. Plant Cell 7, 721733
    OpenUrlAbstract/FREE Full Text
    1. Schneitz K.,
    2. Hulskamp M.,
    3. Pruitt R. E.
    (1995) Wild-type ovule development in Arabidopsis thaliana: a light microscope study of cleared whole-mount tissue. Plant J 7, 731749
    OpenUrlCrossRefWeb of Science
    1. Weigel D.
    (1995) The APETALA2 domain is related to a novel type of DNA binding domain. Plant Cell 7, 388389
    OpenUrlFREE Full Text
    1. Weigel D.,
    2. Meyerowitz E. M.
    (1994) The abcs of floral homeotic genes. Cell 78, 203209
    OpenUrlCrossRefPubMedWeb of Science
Back to top

 Download PDF

Email
JOURNAL ARTICLES
Dissection of sexual organ ontogenesis: a genetic analysis of ovule development in Arabidopsis thaliana
K. Schneitz, M. Hulskamp, S.D. Kopczak, R.E. Pruitt
Development 1997 124: 1367-1376;
del.icio.us logo Digg logo Reddit logo Twitter logo CiteULike logo Facebook logo Google logo Mendeley logo
Citation Tools
Alerts

Article navigation

Other journals from The Company of Biologists

Advertisement

Kathryn Virginia Anderson (1952-2020)

Developmental geneticist Kathryn Anderson passed away at home on 30 November 2020. Tamara Caspary, a former postdoc and friend, remembers Kathryn and her remarkable contribution to developmental biology.

Zooming into 2021

In a new Editorial, Editor-in-Chief James Briscoe and Executive Editor Katherine Brown reflect on the triumphs and tribulations of the last 12 months, and look towards a hopefully calmer and more predictable year.

Read & Publish participation extends worldwide

Over 60 institutions in 12 countries are now participating in our Read & Publish initiative. Here, James Briscoe explains what this means for his institution, The Francis Crick Institute. Find out more and view our full list of participating institutions.

Upcoming special issues

Imaging Development, Stem Cells and Regeneration
Submission deadline: 30 March 2021
Publication: mid-2021

The Immune System in Development and Regeneration
Guest editors: Florent Ginhoux and Paul Martin
Submission deadline: 1 September 2021
Publication: Spring 2022

Both special issues welcome Review articles as well as Research articles, and will be widely promoted online and at key global conferences.

Development presents...

Our successful webinar series continues into 2021, with early-career researchers presenting their papers and a chance to virtually network with the developmental biology community afterwards. Sign up to join our next session:

10 February
Time: 13:00 (GMT)
Chaired by: preLights