Chromosome bi-orientation in yeast

Chromosome bi-orientation in yeast

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Bibliographic Details
Other Authors: Stark, Mike (Speaker), Tanaka, Tomo (Speaker)
Format: Electronic Video
Language:English
Published: London : Henry Stewart Talks, 2022.
Series:Henry Stewart talks. Biomedical & life sciences collection. Cell division cycle : controlling when and where cells divide and differentiate.
Subjects:
Saccharomyces cerevisiae > Genetics.
Yeast fungi > Genetics.
Aneuploidy.
Aurora Kinases.
Cell Cycle.
Chromatids.
Chromosomes, Fungal.
Kinetochores.
Microtubules.
Saccharomyces cerevisiae > genetics.
Saccharomyces cerevisiae > physiology.
Spindle Apparatus > physiology.
Online Access:https://hstalks.com/bs/1262/
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MARC

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028 5 0 |a 2259  |b Henry Stewart Talks 
035 |a (UkLoHST)1262 
040 |a UkLoHST  |b eng  |c UkLoHST 
100 1 |a Stark, Mike,  |u (University of Dundee, UK)  |4 spk  |9 84081 
245 1 0 |a Chromosome bi-orientation in yeast  |h [electronic resource] /  |c Mike Stark and Tomo Tanaka. 
260 |a London :  |b Henry Stewart Talks,  |c 2022. 
300 |a 1 online resource (1 streaming video file (54 min.) :  |b color, sound). 
490 1 |a The cell division cycle : controlling when and where cells divide and differentiate,  |x 2056-452X 
500 |a Animated audio-visual presentation with synchronized narration. 
500 |a Title from title frames. 
500 |a Updated version of a talk first published in 2009. 
505 0 |a Contents: What is chromosome biorientation and why is it important? -- Failure to bi-orient a chromosome will lead to mis-segregation/aneuploidy -- Modes of sister chromatid attachment to spindle microtubules -- The budding yeast (Saccharomyces cerevisiae) as a model for studying chromosome bi-orientation -- Monitoring sister centromeres on individual yeast chromosomes -- Kinetochore capture -- Achieving chromosome bi-orientation: mechanisms -- Geometry-dependent mechanism or a correction mechanism? -- Yeast Ipl1p kinase -- Chromosomes fail to bi-orient with high frequency in Ipl1 mutants -- How might Ipl1p kinase promote bi-orientation? -- Yeast chromosomes can bi-orient without the need for back-to-back geometry -- How does Ipl1p kinase promote bi-orientation? -- The yeast chromosomal passenger complex -- Models for tension-sensing -- What are the targets of Ipl1p kinase at the kinetochore? -- Model for Ipl1 / Aurora function in promoting bi-orientation -- Does Aurora B have similar targets in other organisms? -- Other components required for bi-orientation -- Ipl1p kinase may coordinate chromosome bi-orientation and spindle checkpoint activation. 
506 |a Access restricted to subscribers. 
538 |a Mode of access: World Wide Web. 
650 0 |a Saccharomyces cerevisiae  |x Genetics.  |9 84082 
650 0 |a Yeast fungi  |x Genetics.  |9 84083 
650 2 |a Aneuploidy.  |9 84084 
650 2 |a Aurora Kinases.  |9 84085 
650 2 |a Cell Cycle.  |9 84086 
650 2 |a Chromatids.  |9 84087 
650 2 |a Chromosomes, Fungal.  |9 84088 
650 2 |a Kinetochores.  |9 84089 
650 2 |a Microtubules.  |9 84090 
650 2 |a Saccharomyces cerevisiae  |x genetics.  |9 84091 
650 2 |a Saccharomyces cerevisiae  |x physiology.  |9 84092 
650 2 |a Spindle Apparatus  |x physiology.  |9 84093 
700 1 |a Tanaka, Tomo,  |u (University of Dundee, UK)  |4 spk  |9 84094 
830 0 |a Henry Stewart talks.  |p Biomedical & life sciences collection.  |p Cell division cycle : controlling when and where cells divide and differentiate.  |9 84095 
856 4 0 |u https://hstalks.com/bs/1262/ 
856 4 2 |u https://hstalks.com/bs/p/381/  |3 Series 
999 |c 213636  |d 213635 

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