scholarly article | Q13442814 |
P50 | author | Melanie L Hand | Q57019335 |
Anna Koltunow | Q61153558 | ||
P2093 | author name string | M. L. Hand | |
P2860 | cites work | Double fertilization - caught in the act | Q28288271 |
Chromosomes carrying meiotic avoidance loci in three apomictic eudicot Hieracium subgenus Pilosella species share structural features with two monocot apomicts | Q28740331 | ||
An AFLP marker tightly linked to apomixis reveals hemizygosity in a portion of the apomixis-controlling locus in Paspalum simplex. | Q30733961 | ||
Maternal control of PIN1 is required for female gametophyte development in Arabidopsis. | Q31120723 | ||
Turning meiosis into mitosis | Q33464913 | ||
Genetic fine-mapping of DIPLOSPOROUS in Taraxacum (dandelion; Asteraceae) indicates a duplicated DIP-gene | Q33640725 | ||
Analysis of conserved microRNAs in floral tissues of sexual and apomictic Boechera species | Q34046367 | ||
Expressed sequence-tag analysis of ovaries of Brachiaria brizantha reveals genes associated with the early steps of embryo sac differentiation of apomictic plants. | Q34070218 | ||
Apomixis: Embryo Sacs and Embryos Formed without Meiosis or Fertilization in Ovules | Q34527467 | ||
Two independent loci control agamospermy (Apomixis) in the triploid flowering plant Erigeron annuus | Q34609450 | ||
Haploid plants produced by centromere-mediated genome elimination | Q34618226 | ||
Enlarging cells initiating apomixis in Hieracium praealtum transition to an embryo sac program prior to entering mitosis. | Q34830408 | ||
Deletion mapping of genetic regions associated with apomixis in Hieracium | Q35214709 | ||
Apospory and parthenogenesis may be uncoupled in Poa pratensis: a cytological investigation | Q87366194 | ||
Apomixis: a developmental perspective | Q35540335 | ||
The female gametophyte | Q35710860 | ||
Sporophytic ovule tissues modulate the initiation and progression of apomixis in Hieracium | Q35955056 | ||
Tight clustering and hemizygosity of apomixis-linked molecular markers in Pennisetum squamulatum implies genetic control of apospory by a divergent locus that may have no allelic form in sexual genotypes | Q36064823 | ||
Fertilization-independent seed development in Arabidopsis thaliana | Q36112578 | ||
Control of female gamete formation by a small RNA pathway in Arabidopsis | Q36185453 | ||
Polyembryony in Citrus. Accumulation of seed storage proteins in seeds and in embryos cultured in vitro | Q36811557 | ||
Apomixis in plant reproduction: a novel perspective on an old dilemma | Q37104923 | ||
Argonaute proteins: functional insights and emerging roles | Q38111603 | ||
Production of viable gametes without meiosis in maize deficient for an ARGONAUTE protein. | Q39971285 | ||
Loss of function of MULTICOPY SUPPRESSOR OF IRA 1 produces nonviable parthenogenetic embryos in Arabidopsis. | Q40430475 | ||
Genetic analysis of apomixis in Citrus and Poncirus by molecular markers | Q40803339 | ||
Apomictic and sexual ovules of Boechera display heterochronic global gene expression patterns | Q43122776 | ||
The LOSS OF APOMEIOSIS (LOA) locus in Hieracium praealtum can function independently of the associated large-scale repetitive chromosomal structure | Q43870967 | ||
Computational identification of conserved microRNAs and their putative targets in the Hypericum perforatum L. flower transcriptome | Q43992228 | ||
Genetic separation of autonomous endosperm formation (AutE) from the two other components of apomixis in Hieracium. | Q46308456 | ||
Confocal microscopy of whole ovules for analysis of reproductive development: the elongate1 mutant affects meiosis II. | Q46584482 | ||
Cytokinin-dependent specification of the functional megaspore in the Arabidopsis female gametophyte | Q46587830 | ||
Mutations in FIE, a WD polycomb group gene, allow endosperm development without fertilization | Q47981898 | ||
Sexual and apomictic seed formation in Hieracium requires the plant polycomb-group gene FERTILIZATION INDEPENDENT ENDOSPERM. | Q48072975 | ||
Sequence analysis of bacterial artificial chromosome clones from the apospory-specific genomic region of Pennisetum and Cenchrus | Q48074640 | ||
SERK and APOSTART. Candidate genes for apomixis in Poa pratensis. | Q48129274 | ||
Isolation of candidate genes for apomixis in Poa pratensis L. | Q48143062 | ||
High-resolution physical mapping in Pennisetum squamulatum reveals extensive chromosomal heteromorphism of the genomic region associated with apomixis | Q48196799 | ||
Ectopic expression of BABY BOOM triggers a conversion from vegetative to embryonic growth | Q48288548 | ||
The Polycomb group protein MEDEA and the DNA methyltransferase MET1 interact to repress autonomous endosperm development in Arabidopsis. | Q50775932 | ||
Sexual reproduction is the default mode in apomictic Hieracium subgenus Pilosella, in which two dominant loci function to enable apomixis. | Q50788084 | ||
Germline-specific MATH-BTB substrate adaptor MAB1 regulates spindle length and nuclei identity in maize. | Q51286580 | ||
Synthetic clonal reproduction through seeds. | Q51503301 | ||
Gene expression analysis at the onset of aposporous apomixis in Paspalum notatum. | Q51702359 | ||
Gamete formation without meiosis in Arabidopsis. | Q51715233 | ||
A germ cell specific gene of the ARGONAUTE family is essential for the progression of premeiotic mitosis and meiosis during sporogenesis in rice. | Q51743497 | ||
Inactivation of a DNA methylation pathway in maize reproductive organs results in apomixis-like phenotypes. | Q51896810 | ||
Sexual and apomictic reproduction in Hieracium subgenus pilosella are closely interrelated developmental pathways. | Q52103387 | ||
Mapping diplosporous apomixis in tetraploid Tripsacum: one gene or several genes? | Q52190446 | ||
High-resolution physical mapping reveals that the apospory-specific genomic region (ASGR) in Cenchrus ciliaris is located on a heterochromatic and hemizygous region of a single chromosome. | Q53659212 | ||
Identification and genetic analysis of the APOSPORY locus in Hypericum perforatum L. | Q54438778 | ||
Molecular cytogenetics and DNA sequence analysis of an apomixis-linked BAC in Paspalum simplex reveal a non pericentromere location and partial microcolinearity with rice | Q57749764 | ||
Crosses between sexual and apomictic dandelions (Taraxacum). II. The breakdown of apomixis | Q73395725 | ||
Recombination within the apospory specific genomic region leads to the uncoupling of apomixis components in Cenchrus ciliaris | Q86533233 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 441-450 | |
P577 | publication date | 2014-06-01 | |
P1433 | published in | Genetics | Q3100575 |
P1476 | title | The genetic control of apomixis: asexual seed formation | |
P478 | volume | 197 |
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