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CONTROL OF EARLY SEED DEVELOPMENT (2001)

Chaudhury, Abdul M. ; Koltunow, Anna ; Payne, Thomas ; [et al.]

Palo Alto, Calif. : Annual Reviews

Annual Review of Cell and Developmental Biology 17 (2001), S. 677-699

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ISSN: 1081-0706

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Biology , Medicine

Notes: Abstract Seed development requires coordinated expression of embryo and endosperm and has contributions from both sporophytic and male and female gametophytic genes. Genetic and molecular analyses in recent years have started to illuminate how products of these multiple genes interact to initiate seed development. Imprinting or differential expression of paternal and maternal genes seems to be involved in controlling seed development, presumably by controlling gene expression in developing endosperm. Epigenetic processes such as chromatin remodeling and DNA methylation affect imprinting of key seed-specific genes; however, the identity of many of these genes remains unknown. The discovery of FIS genes has illuminated control of autonomous endosperm development, a component of apomixis, which is an important developmental and agronomic trait. FIS genes are targets of imprinting, and the genes they control in developing endosperm are also regulated by DNA methylation and chromatin remodeling genes. These results define some exciting future areas of research in seed development.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.cellbio.17.1.677

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APOMIXIS: A Developmental Perspective (2003)

Koltunow, Anna M. ; Grossniklaus, Ueli

Palo Alto, Calif. : Annual Reviews

Annual Review of Plant Physiology and Plant Molecular Biology 54 (2003), S. 547-574

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ISSN: 1040-2519

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Biology

Notes: Abstract The term apomixis encompasses a suite of processes whereby seeds form asexually in plants. In contrast to sexual reproduction, seedlings arising from apomixis retain the genotype of the maternal parent. The transfer of apomixis and its effective utilization in crop plants (where it is largely absent) has major advantages in agriculture. The hallmark components of apomixis include female gamete formation without meiosis (apomeiosis), fertilization-independent embryo development (parthenogenesis), and developmental adaptations to ensure functional endosperm formation. Understanding the molecular mechanisms underlying apomixis, a developmentally fascinating phenomenon in plants, is critical for the successful induction and utilization of apomixis in crop plants. This review draws together knowledge gained from analyzing ovule, embryo, and endosperm development in sexual and apomictic plants. It consolidates the view that apomixis and sexuality are closely interrelated developmental pathways where apomixis can be viewed as a deregulation of the sexual process in both time and space.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.arplant.54.110901.160842

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A DEFICIENS homologue is down-regulated during apomictic initiation in ovules of Hieracium (2000)

Guerin, Jenny ; Rossel, Jan Bart ; Robert, Stanley ; [et al.]

Springer

Planta 210 (2000), S. 914-920

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ISSN: 1432-2048

Keywords: Key words: Apomixis –DEFICIENS homologue –Hieracium (apomixis) – Ovule

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract. Hieracium is a member of the Asteraceae family, and contains sexual species in addition to apomictic species that reproduce by apospory and produce seed without fertilization. A homologue of the floral organ-identity gene DEFICIENS (DEF) was isolated from an apomictic line of Hieracium piloselloides (Vill.) following differential display between mature ovules and those initiating autonomous embryogenesis. The gene termed HPDEF has 93% amino acid identity with GDEF2, a DEF homologue isolated from Gerbera hybrida (D. Yu et al., 1999, Plant J. 17: 51–62), another member of the Asteraceae. In-situ analysis showed that early in floral development HPDEF is expressed in stamen and petal primordia, indicating expected B-function activity, according to the ABC model of floral organ identity (J. L. Bowman et al., 1991, Development 112: 1–20; E. S. Coen and E. M. Meyerowitz, 1991, Nature 353: 31–37). However, HPDEF expression was also observed in ovule primordia and expression continued in developing ovules until anthesis, indicating that this gene may have a role in ovule development. Expression of HPDEF was not detected in megaspore mother cells, or in sexual or aposporous embryo sacs. In sexual Hieracium, HPDEF was uniformly expressed throughout the ovule integument until anthesis. In most ovules of the apomict, however, HPDEF expression was transiently down-regulated in a specific zone in the chalazal region where cells initiating aposporous embryo sac formation differentiate. Uniform low-level HPDEF expression was subsequently observed prior to anthesis in ovules from sexual and apomictic plants. HPDEF may be down-regulated as a consequence of apomictic initiation and/or its down-regulation may facilitate progression of apomictic events.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004250050697

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Evaluation of genes to reduce seed size in shape Arabidopsis and tobacco and their application to shape Citrus (1998)

Koltunow, Anna M. ; Brennan, Peter ; Bond, James E. ; [et al.]

Springer

Molecular breeding 4 (1998), S. 235-251

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ISSN: 1572-9788

Keywords: Citrus ; seed ; seedless ; fruit ; tobacco ; Arabidopsis

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Seedlessness is a highly desirable characteristic in fresh fruit. Marketability of a fruit as seedless does not require complete absence of seeds as long as the seed structures are imperceptible during consumption. Chimaeric genes comprised of soybean β-conglycinin seed storage protein gene promoters linked to the bacterial RNase gene, Barnase, were tested for their efficacy to cause seed death and decrease seed size in tobacco and Arabidopsis. These species were used because they undergo two distinct seed developmental pathways and produce albuminous and exalbuminous seeds, respectively. In both species, the death of embryo and endosperm tissues occurred, resulting in a dominant seed lethal phenotype with segregation distortion. Reduction in seed size was only observed in Arabidopsis seeds and the phenotype resembled that of stenospermocarpic seeds in grape. Some transformants of both species were male-sterile and this correlated with the expression of the gene in anthers indicating that expression of the gene is not strictly seed-specific. The promoters also direct expression of a linked GUS gene to Citrus embryos of various developmental stages, and Citrus forms exalbuminous seeds, therefore, the Barnase constructions may be useful in eliciting a reduction in seed size of around 75% of the seeds found in the fruit. This may be sufficient to warrant marketing as ‘less seedy’ if trials in the cultivar of interest indicate that the smaller seeds are less detectable to the consumer. Abbreviations: GUS, β-glucuronidase; PCR, polymerase chain reaction; DMSO, dimethyl sulfoxide; DTA, diphtheria toxin-A chain; CFDA, 5(6)-carboxy-fluorescein di-acetate; CG, β-conglycinin; DAP, days after pollination; FAA, formaldehyde-acetic acid alcohol fixative.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009610819338

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Paternal transmission of a seed size reduction gene varies with age of a primary transformant and seed set is also influenced by gene expression in maternal tissues (1998)

Koltunow, Anna M. ; Brennan, Peter

Springer

Molecular breeding 4 (1998), S. 253-261

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ISSN: 1572-9788

Keywords: Citrus ; seed ; seedless ; fruit

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract We have constructed chimaeric genes that are expressed in embryo and endosperm compartments of the seed, induce dominant seed lethality and have potential to reduce seed size in 75% of seeds within a fruit such as Citrus [7]. The genes are not entirely seed-specific as a proportion of primary test tobacco transformants containing their gene were fully male-sterile [7]. Here we investigated why a proportion of apparently male-fertile transgenic plants showed segregation distortion from the 75% seed lethality expected for a single dominant gene. Reciprocal crosses were conducted between pollen fertile, primary tobacco transformants containing various copies of the CG1-400-RNase gene [7] and wild-type tobacco plants to examine the transmission of the gene through maternal and paternal gametes and also the effects of gene dosage in embryo and endosperm compartments on seed viability and phenotype. Pollen viability, seed set and seed phenotype were examined over a 16 month period to assess stability of gene expression in primary transformants because woody, fruit crops containing these genes will be vegetatively propagated from primary transformants. In male-fertile transformants, the gene was observed to be expressed to varying degrees post-meiotically in pollen over the time period examined resulting in lethality of transgenic pollen and reduced paternal transmission. A variable, low-level maternal expression component was also detected that resulted in seed lethality and influenced morphological variation in the seed lethal phenotype. The maternal and paternal expression components caused seed lethality to range from 50 to 75%. This study indicates the need to select for transformants with stable pollen transmission and high seed expression and raises questions in relation to possible environmental and epistatic effects on gene expression in primary, hemizygous transformants over long growth periods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009615103408

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