A study of mitotic recombination in yeast by pedigree analysis.

Glickman, Barry Wayne

January 1969

No description available.

Cell division.

Development of a semi-automatic method for cellular migration and division analysis

Chu, Calvin, School of Biomedical Engineering, UNSW

January 2005

Binary image processing algorithms have been implemented in this study to create a background subtraction mask for the segmentation of cellular time lapse images. The complexity in the development of the background subtraction mask stems from the inherent difficulties in contrast resolution at the cellular boundaries. Coupling the background subtraction mask with the path reconstruction method via superposition of overlapping binary segmented objects in sequential time lapse images produces a semi-automatic method for cellular tracking. In addition to the traditional center of mass or centroid approximation, a novel quasi-center of mass (QCM) derived from the local maxima of the distance transformation (DT) has also been proposed in this study. Furthermore, image isolation and separation between spreading/motile and mitotic cells allows the extraction of both migratory and divisional cellular information. DT application to isolated mitotic cells permits the ability to identify distinct morphologic phases of cellular division. Application of standard bivariate statistics allows the characterization of cellular migration and growth. Determination of Hotelling???s confidence ellipse from cellular trajectory data elucidates the biased or unbiased migration of cellular populations. We investigated whether it was possible to describe the trajectory as a simple binomial process, where trajectory directions are classified into a sequence of (8) discrete states. A significant proportion of trajectories did not follow the binomial model. Additionally, a preliminary relationship between the image background area, approximate number of counted cells in an image frame, and imaging time is proposed from the segmentation of confluent monolayer cellular cultures.

cell division

Development of a semi-automatic method for cellular migration and division analysis

Chu, Calvin, School of Biomedical Engineering, UNSW

January 2005

Binary image processing algorithms have been implemented in this study to create a background subtraction mask for the segmentation of cellular time lapse images. The complexity in the development of the background subtraction mask stems from the inherent difficulties in contrast resolution at the cellular boundaries. Coupling the background subtraction mask with the path reconstruction method via superposition of overlapping binary segmented objects in sequential time lapse images produces a semi-automatic method for cellular tracking. In addition to the traditional center of mass or centroid approximation, a novel quasi-center of mass (QCM) derived from the local maxima of the distance transformation (DT) has also been proposed in this study. Furthermore, image isolation and separation between spreading/motile and mitotic cells allows the extraction of both migratory and divisional cellular information. DT application to isolated mitotic cells permits the ability to identify distinct morphologic phases of cellular division. Application of standard bivariate statistics allows the characterization of cellular migration and growth. Determination of Hotelling???s confidence ellipse from cellular trajectory data elucidates the biased or unbiased migration of cellular populations. We investigated whether it was possible to describe the trajectory as a simple binomial process, where trajectory directions are classified into a sequence of (8) discrete states. A significant proportion of trajectories did not follow the binomial model. Additionally, a preliminary relationship between the image background area, approximate number of counted cells in an image frame, and imaging time is proposed from the segmentation of confluent monolayer cellular cultures.

cell division

Corneal cellular proliferation and wound healing /

Gan, Lisha,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 5 uppsatser.

Cell division.

A study of mitotic recombination in yeast by pedigree analysis.

Glickman, Barry Wayne

January 1969

No description available.

Cell division.

The synthesis and properties of ribonucleic acid in dividing plant cells

Fraser, R. S. S.

January 1968

No description available.

572

Biochemistry of cell division

Characterisation of a novel cell division operon in E. coli K-12

Gill, D. R.

January 1986

No description available.

572.8

Genetics of cell division

Identifying genes that mediate shoot meristemless function during meristem development in Arabidopsis thaliana

Woodward, Claire J. D. A.

January 2002

No description available.

575

Cell division

Clonal analysis of the arabidopsis primary root

Kidner, Catherine

January 1997

No description available.

580

Cell division; Clones

A genetic analysis of the cell cycle of the fission yeast Schizosaccharomyces pombe

Bartlett, Rachel Clare

January 1991

No description available.

572.8

Cell division analysis