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Cell-cycle control during root growth and development in Arabidopsis thaliana:

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1. Verfasser:	Weimer, Annika Katharina 1983- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English German
Veröffentlicht:	2012
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Zsfassung in dt. und engl. Sprache
Beschreibung:	IX, 152 S. Ill., graph. Darst.

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adam_text	Titel: Cell-cycle control during root growth and development in Arabidopsis thaliana Autor: Weimer, Annika Katharina Jahr: 2012 Contents Contents....................................................................................................................................I Abstract....................................................................................................................................V Kurzzusammenfassung.........................................................................................................VI Publications..........................................................................................................................VIII Nomenclature.........................................................................................................................IX 1. Introduction., 1.1. The cell cycle................................................................................................................1 1.2. Checkpoints..................................................................................................................2 1.3. The plant cell cycle......................................................................................................3 1.4. Cell-cycle regulators in plants....................................................................................4 1.4.1. Cyclin-dependent kinases........................................................................................4 1.4.1.1. CDKA;1.............................................................................................................4 1.4.1.2. The plant specific family of CDKBs...................................................................5 1.4.1.2.1. CDKB1........................................................................................................6 1.4.1.2.2. CDKB2........................................................................................................6 1.4.1.3. Cdk-activating kinases......................................................................................7 1.4.2. Cyclins.....................................................................................................................9 1.4.3. Inhibitors................................................................................................................11 1.4.4. Retinoblastoma-related 1.......................................................................................12 1.5. Posttranslatjonal modifications ot Cdks..................................................................14 1.5.1. T-loop phosphorylation..........................................................................................15 1.5.2. P-loop phosphorylation..........................................................................................15 1.5.2.1. Wee1...............................................................................................................16 1.5.2.2. The curious case of the plant homologue for Cdc25.......................................17 1.6. Developmental control of cell division..........................................................___..18 1.6.1. The Arabidopsis root is organized into different cell layers....................................18 1.6.2. SCARECROW regulates CYCD6;1 in asymmetric cell divisions in the root..........20 1.6.3. FOURLIPS/MYB88 regulate Cdks and cyclins in the stomatal lineage.................21 1.7. Genotoxic stress and cell cycle regulation_______.............................................22 1.7.1. The two major repair pathways in plants: HR and NHEJ.......................................24 1.7.2. Mechanisms of genotoxic stress inducers.............................................................25 2. Objectives..........................................................................................................................28 3. Results............................................................................................................................_.29 3.1. Control of asymmetric cell divisions in AtabUopsIs thallana...............................29 3.1.1. Involvement of CDKA;1 in asymmetric cell divisions.............................................29 3.1.1.1. Weak loss-of-function cdka;1 alleles have shorter roots than wild-type plants29 3.1.1.2. Asymmetric divisions are delayed in weak loss-of-function cdka;1 alleles......30 3.1.1.3. Casparian strip formation is not disturbed in weak cdka;1 mutants................34 3.1.1.4. Failure of asymmetric cell divisions in cdka;1 null mutants.............................35 3.1.1.5. Time-course of cortex-endodermis differentiation in weak cdka;1 alleles.......36 3.1.2. Involvement of CDKBIs in asymmetric cell divisions............................................37 3.1.2.1. CDKB1 function is partially redundant to CDKA;1...........................................37 3.1.2.2. cdkbls have a weak mutant phenotype for asymmetric cell divisions............39 3.1.3. Involvement of CYCLIN D6;1 in asymmetric cell divisions....................................41 3.1.3.1. CYCD6;1 :GUS marks additional cell files in weak cdka;1 alleles....................41 3.1.3.2. cycd6;1 displays a weak delay in asymmetric cell divisions in the root...........42 3.1.4. The transcription factor RBR1 links cell proliferation with differentiation...............43 3.1.4.1. rbrl rescues asymmetric divisions in co*a,t mutants.....................................43 3.1.4.2. CEID division in rbrl is faster at permissive temperatures..............................45 3.1.4.3. Less phosphorylation of RBR1 in weak cdka;1 alleles....................................45 3.1.4.4. RBR1 regulates cell differentiation genes of the SHR/SCR pathway..............46 3.2. The role of B1-type cyclins in the DNA damage response....................................51 3.2.1. B1-type cyclins and cell cycle regulation in the root..............................................51 3.2.2. Analysis of the growth of B1 -type cyclin mutants...................................................51 3.2.2.1. Global phenotype of B1-type cyclin mutants...................................................51 3.2.2.2. Root growth performance of B1-type cyclin mutants.......................................53 3.2.3. Analysis of hypersensitivity of B1 - type cyclins to genotoxic stress.......................54 3.2.3.1. B1-type cyclin mutants are not hypersensitive to hydroxyurea.......................54 3.2.3.2. B1-type cyclin mutants are not hypersensitive to bleomycin...........................56 3.2.3.3. B1-type cyclin mutants are sensitive to cisplatin.............................................57 3.2.3.4. CYCB1 ;1 is upregulated after cisplatin treatment...........................................59 3.2.3.5. The double mutant cdkb1;1 cdkb1]2 is hypersensitive to cisplatin..................60 3.2.4. Involvement of B1-type cyclins in the DNA repair by HR.......................................61 3.2.5. CYCB1 s are involved in mitotic chromosome segregation....................................63 3.3. WEE1 under DNA damage conditions........................................................._____65 3.3.1. WEE1 is not hypersensitive to bleomycin..............................................................65 3.3.2. WEE1 action on CDKBs........................................................................................66 3.3.3. WEE1 action upstream of T-loop activation in CDKA;1.........................................68 3.3.4. Phosphorylation-independent function for WEE1 after genotoxic stress...............74 3.3.5. EMS suppressor screen of wsef mutants.............................................................75 3.3.6. Tyr4-phosphorylation of CDKA;1...........................................................................76 4. Discussion.........................................................................................................................77 4.1. Control of asymmetric cell divisions in AraUdopsis..............................................77 4.1.1. Asymmetric cell divisions in the root depend on CDKA;1/RBR1...........................77 4.1.2. Asymmetric divisions in the stomatal lineage follow the same mechanism than in roots.......................................................................................................................81 4.1.3. Species-specific differences of Cdk1 function in asymmetric cell divisions...........83 4.2. Function of CDKB1/CYCB1 complexes in the genotoxic stress response_____83 4.3. Function of WEE1 in cell cycle control upon DNA damage...................................91 5. Materials......______......._.................................................................................................97 5.1. Vectors and constructs.............................................................................................97 5.2. Plant material.................................................„...........................................................99 5.2.1. Transgenic plants...................................................................................................99 5.2.2. T-DNA insertion lines...........................................................................................101 5.2.3. Crosses................................................................................................................103 5.3. Primers........................................„............................................................................105 .112 6.1. Plant methods___.........................._........................................................................112 6.2. Cytology and Microscopy________________.........................................................115 6.3. Nucleic add work___........_____________..............................................................116 6 A Protein work________________________..............................................................118 6.5. Microbiological work and cloning___________.....................................................123 7. Appendix..........................................................................................................................127 7.1. Amino acids..........................................................................................................._ 127 7.2. Abbreviations......................................................_______________________128 8. References.........................................................................._______............................133 9. Figures and Tables.................................................................._________..................147 10. Danksagung.............................................................................................................___150 11. Erklarung.......................................................................................................................151 12. Curriculum vitae............................................................................................................152
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author	Weimer, Annika Katharina 1983-
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spelling	Weimer, Annika Katharina 1983- Verfasser (DE-588)1044803126 aut Cell-cycle control during root growth and development in Arabidopsis thaliana vorgelegt von Annika Katharina Weimer 2012 IX, 152 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Zsfassung in dt. und engl. Sprache Köln, Univ., Diss., 2012 (DE-588)4113937-9 Hochschulschrift gnd-content HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026910741&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Weimer, Annika Katharina 1983- Cell-cycle control during root growth and development in Arabidopsis thaliana
subject_GND	(DE-588)4113937-9
title	Cell-cycle control during root growth and development in Arabidopsis thaliana
title_auth	Cell-cycle control during root growth and development in Arabidopsis thaliana
title_exact_search	Cell-cycle control during root growth and development in Arabidopsis thaliana
title_full	Cell-cycle control during root growth and development in Arabidopsis thaliana vorgelegt von Annika Katharina Weimer
title_fullStr	Cell-cycle control during root growth and development in Arabidopsis thaliana vorgelegt von Annika Katharina Weimer
title_full_unstemmed	Cell-cycle control during root growth and development in Arabidopsis thaliana vorgelegt von Annika Katharina Weimer
title_short	Cell-cycle control during root growth and development in Arabidopsis thaliana
title_sort	cell cycle control during root growth and development in arabidopsis thaliana
topic_facet	Hochschulschrift
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