| scholarly article | Q13442814 |
| P50 | author | Dirk Inzé | Q2539349 |
| Lieven De Veylder | Q43559927 | ||
| P2093 | author name string | Gilbert Engler | |
| Jan H W Bergervoet | |||
| Kris Van Poucke | |||
| Steven P C Groot | |||
| Rosa Maria Barrôco | |||
| P2860 | cites work | Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana | Q27860555 |
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| Molecular markers and cell cycle inhibitors show the importance of cell cycle progression in nematode-induced galls and syncytia | Q49170693 | ||
| Cyclin-dependent kinases and cell division in plants- the nexus | Q49170830 | ||
| Expression of the plant cyclin-dependent kinase inhibitor ICK1 affects cell division, plant growth and morphology | Q73313165 | ||
| Cell division and subsequent radicle protrusion in tomato seeds are inhibited by osmotic stress but DNA synthesis and formation of microtubular cytoskeleton are not | Q73454776 | ||
| [beta]-Tubulin Accumulation and DNA Replication in Imbibing Tomato Seeds | Q74781863 | ||
| The plant cell cycle | Q79076256 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 14 | |
| P304 | page(s) | 127-140 | |
| P577 | publication date | 2004-12-03 | |
| P1433 | published in | Plant Physiology | Q3906288 |
| P1476 | title | The role of the cell cycle machinery in resumption of postembryonic development | |
| P478 | volume | 137 |
| Q33283998 | ATM-mediated transcriptional and developmental responses to gamma-rays in Arabidopsis |
| Q34546988 | Analysis of dormant bud (Banjhi) specific transcriptome of tea (Camellia sinensis (L.) O. Kuntze) from cDNA library revealed dormancy-related genes |
| Q37421832 | Arabidopsis seed germination speed is controlled by SNL histone deacetylase-binding factor-mediated regulation of AUX1. |
| Q33358667 | CYCP2;1 integrates genetic and nutritional information to promote meristem cell division in Arabidopsis. |
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| Q64054238 | Comparative transcriptome analysis revealing the potential mechanism of seed germination stimulated by exogenous gibberellin in Fraxinus hupehensis |
| Q41903937 | Complexes of D-type cyclins with CDKs during maize germination. |
| Q33341699 | D-type cyclins activate division in the root apex to promote seed germination in Arabidopsis |
| Q34536806 | DNA damage checkpoint kinase ATM regulates germination and maintains genome stability in seeds |
| Q36396041 | Distinctive features and differential regulation of the DRTS genes of Arabidopsis thaliana |
| Q37428838 | Dynamic proteomics emphasizes the importance of selective mRNA translation and protein turnover during Arabidopsis seed germination. |
| Q33356411 | ELONGATA3 is required for shoot meristem cell cycle progression in Arabidopsis thaliana seedlings |
| Q35918593 | Exogenous auxin regulates multi-metabolic network and embryo development, controlling seed secondary dormancy and germination in Nicotiana tabacum L |
| Q33342683 | Expression of cell cycle genes in shoot apical meristems |
| Q37856600 | First off the mark: early seed germination |
| Q59138401 | Germination and the Early Stages of Seedling Development in Brachypodium distachyon |
| Q50587702 | Germination of Arabidopsis thaliana seeds is not completed as a result of elongation of the radicle but of the adjacent transition zone and lower hypocotyl. |
| Q46797172 | Interactions between the cell cycle and embryonic patterning in Arabidopsis uncovered by a mutation in DNA polymerase epsilon. |
| Q46890513 | Mitosis-specific promoter of the alfalfa cyclin-dependent kinase gene (Medsa;CDKB2;1) is activated by wounding and ethylene in a non-cell division-dependent manner |
| Q33362909 | On the language and physiology of dormancy and quiescence in plants |
| Q44571368 | Proanthocyanidins inhibit seed germination by maintaining a high level of abscisic acid in Arabidopsis thaliana. |
| Q48219693 | Proteomic analysis of lettuce seed germination and thermoinhibition by sampling of individual seeds at germination and removal of storage proteins by polyethylene glycol fractionation. |
| Q34491759 | QTL analysis of seed germination and pre-emergence growth at extreme temperatures in Medicago truncatula |
| Q33350327 | RCD1 and SRO1 are necessary to maintain meristematic fate in Arabidopsis thaliana |
| Q33357216 | RETINOBLASTOMA-RELATED protein stimulates cell differentiation in the Arabidopsis root meristem by interacting with cytokinin signaling. |
| Q41822545 | S phase of the cell cycle: a key phase for the regulation of thermodormancy in barley grain |
| Q83389925 | Seed dormancy and germination |
| Q64948075 | Seeds and the Art of Genome Maintenance. |
| Q33363310 | The AP2-type transcription factors DORNRÖSCHEN and DORNRÖSCHEN-LIKE promote G1/S transition |
| Q33355380 | The Arabidopsis CDK inhibitor ICK3/KRP5 is rate limiting for primary root growth and promotes growth through cell elongation and endoreduplication |
| Q40308462 | The D-type cyclin CYCD3;1 is limiting for the G1-to-S-phase transition in Arabidopsis. |
| Q46884116 | The first zygotic division in Arabidopsis requires de novo transcription of thymidylate kinase |
| Q34466205 | The importance of safeguarding genome integrity in germination and seed longevity |
| Q36887556 | The ins and outs of the plant cell cycle |
| Q30977359 | The proteome of lentil (Lens culinaris Medik.) seeds: discriminating between landraces. |
| Q48090838 | WRI1 is required for seed germination and seedling establishment. |
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