Verfügbarkeit: The fission yeast Aurora kinase

The fission yeast Aurora kinase: possible mechanisms of activation and its role in regulating microtubule dynamics

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Bibliographische Detailangaben
1. Verfasser:	Huang, Yu-Hua 1975- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	2010
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	IX, 111 S. Ill., graph. Darst.

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adam_text	TABLE OF CONTENTS ACKNOWLEDGEMENTS ............................................................................................................. I LIST OF FIGURES ........................................................................................................................ V ABBREVIATIONS ......................................................................................................................VII SUMMARY AND OUTLOOK ................................................................................................... IX 1 GENERAL INTRODUCTION ................................................................................................ 1 1.1 C ELL CYCLE ......................................................................................................................... 2 1.2 M ITOSIS ................................................................................................................................ 4 1.2.1 THE MITOTIC SPINDLE ....................................................................................................... 5 1.2.2 KINETOCHORE-MICROTUBULE ATTACHMENT ......................................................................... 7 1.2.3 MICROTUBULE-ASSOCIATED PROTEINS (MAPS) AND MOTOR PROTEINS ACTING DURING MITOSIS 9 1.3 M ITOTIC FUNCTIONS OF THE A URORA B KINASE ........................................................... 12 1.3.1 CHROMOSOME CONDENSATION AND HETEROCHROMATIN MODIFICATION ............................ 12 1.3.2 CORRECTION OF ABERRANT ATTACHMENT ........................................................................... 14 1.3.3 SPINDLE ASSEMBLY CHECKPOINT (SA C) ........................................................................ 18 1.3.4 CYTOKINESIS AND ABSCISSION ........................................................................................ 19 1.4 THE REGULATION OF AURORA B ..................................................................................... 20 1.5 FISSION YEAST AS A MODEL ORGANISM .......................................................................... 22 1.6 AIM OF THIS THESIS .......................................................................................................... 23 2 THE REGULATION OF THE ARK1 COMPLEX IN MITOSIS ................................. 24 2.1 INTRODUCTION .................................................................................................................. 24 2.2 R ESULTS ............................................................................................................................ 25 2.2.1 CAFFEINE SENSITIVITY IS INFLUENCED BY MUTATION OF ADE6 ............................................ 25 2.2.2 STRAINS EXPRESSING ARKL-T7 AND-T11 ARE CAFFEINE SENSITIVE .................................. 26 2.2.3 CAFFEINE REDUCES HISTONE H3 SERINE 10 PHOSPHORYLATION (H3S10PH) .................... 28 2.2.4 DELETION OF CHKL OR RAD3 DOES NOT AFFECT HISTONE H3 SERINE 10 PHOSPHORYLATION (H3S10PH) ............................................................................................................................... 31 2.2.5 ARKL KINASE ACTIVITY IS DECREASED IN THE PRESENCE OF CAFFEINE ................................32 2.3 DISCUSSION ...................................................................................................................... 34 2.3.1 ADENINE AND CAFFEINE ..................................................................................................34 2.3.2 HOW DOES CAFFEINE INFLUENCE ARKL ACTIVITY? .............................................................35 2.4 S UPPLEMENTAL DATA ..................................................................................................... 39 II 3 PHOSPHORYLATION BY THE AURORA KINASE ARK1 INHIBITS THE DEPOLYMERIZATION-INDUCING ACTIVITY OF KINESIN-8 _________________ 41 3.1 INTRODUCTION .................................................................................................................. 41 3.2 C ONTRIBUTIONS ................................................................................................................ 44 3.3 R ESULTS ............................................................................................................................. 45 3.3 . / ARKL PHOSPHORYLATES SEVERAL KINETOCHORE PROTEINS IN VITRO .............................. 45 33.2 ARKL PHOSPHORYLATES KINESIN-8 (KLP5 AND KLP6) IN VITRO ...................................... 47 333 ARKL PHOSPHORYLATES SEVERAL RESIDUES WITHIN KLP5/KLP6 IN VITRO ......................... 49 33.4 KLP 5 IS PHOSPHORYLATED ON SEVERAL SITES DURING MITOSIS IN VIVO ............................. 52 3.3.5 CELLS EXPRESSING KLP5-T224D ARE SIMILARLY RESISTANT TO A MT-DESTABILIZING DRUG AS KLP5K CELLS ............................................................................................................................ 53 3.3.6 CELLS EXPRESSING KLP5-T224D CELLS SHOW A RETENTION OF THE SAC PROTEIN BUBL, BUT NOT MAD2 AT KINETOCHORES DURING PROMETAPHASE, SIMILAR TO KLP 5^ CELLS ............................ 55 3.3.7 KLP5-T224D AFFECTS THE OSCILLATORY MOVEMENT OF CHROMOSOMES DURING PROMETAPHASE ........................................................................................................................... 58 3.3.8 KLP5-T224D IS IMPAIRED IN DEPOLYMERIZATION-INDUCING ACTIVITY, WHILE STILL BEING ABLE TO MOVE ALONG MICROTUBULES. .......................................................................................... 60 3.3.9 KLP5-T224D-GFP/KLP6-GFP SHOWS PLUS-END DIRECTED MOVEMENT ALONG ASTRAL MTS ...........................................................................................................................................65 3.4 D ISCUSSION ....................................................................................................................... 67 3.4.1 1S KINESIN-8 (KLP5/KLP6) A PHYSIOLOGICAL SUBSTRATE OF AURORA B/ARKL ?................ 68 3.4.2 THE MODIFICATION OF KLP5-T224 RESIDUE MIGHT AFFECT ITS DEPOLYMERIZATION ACTIVITY 69 3.5 S UPPLEMENTAL DATA ...................................................................................................... 73 4 MATERIALS AND METHODS ___________________________________ 78 4.1 M ATERIALS ........................................................................................................................ 78 4.1.1 YEAST MEDIA ................................................................................................................. 78 4.1.2 REFERENCES FOR S. POMBE STRAIN ................................................................................. 79 4.1.3 FISSION YEAST STRAINS USED IN CHAPTER 2 ................................................................... 80 4.1.4 FISSION YEAST STRAINS USED IN CHAPTER 3 ................................................................... 81 4.1.5 PLASMIDS ...................................................................................................................... 83 4.1.6 ANTIBODIES .................................................................................................................. 84 4.1.7 OLIGONUCLEOTIDES ........................................................................................................ 84 4.2 M ETHODS .......................................................................................................................... 85 4.2.1 CONSTRUCTION OF FISSION YEAST STRAINS ........................................................................ 85 4.2.2 TETRAD DISSECTION ........................................................................................................ 86 4.2.3 GROWTH TEST .................................................................................................................. 86 IN 4.2.4 YEAST CULTURE ................................................................................................................ 86 4.2.5 CONSTRUCTION OF DNA PLASMIDS AND RECOMBINANT PROTEIN EXPRESSION .................. 8 7 4.2.6 ARKL IN VITRO KINASE ASSAY .......................................................................................... 88 4.2.7 PURIFICATION OF KLP5/KLP6 FROM MITOTIC S. POMBE CULTURES .................................... 88 4.2.8 WHOLE CELL EXTRACT PREPARATION USING TCA ............................................................. 89 4.2.9 SDS-PA GE AND IMMUNOBLOTTING ...............................................................................90 4.2.10 IMMUNOSTAINING AND DNA STAINING ......................................................................... 90 4.2.11 FLUORESCENCE MICROSCOPY ......................................................................................... 91 4.2.12 LIVE CELL IMAGING ....................................................................................................... 91 5 REFERENCES ------------------------------------------------------------------------------------------------------------------93 CURRICULUM VITAE.... .................................111 IV
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spellingShingle	Huang, Yu-Hua 1975- The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics
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title	The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics
title_auth	The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics
title_exact_search	The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics
title_full	The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics von Yu-Hua Huang
title_fullStr	The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics von Yu-Hua Huang
title_full_unstemmed	The fission yeast Aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics von Yu-Hua Huang
title_short	The fission yeast Aurora kinase
title_sort	the fission yeast aurora kinase possible mechanisms of activation and its role in regulating microtubule dynamics
title_sub	possible mechanisms of activation and its role in regulating microtubule dynamics
topic_facet	Hochschulschrift
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