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R J Kallenbach

Showing results (1-10 of 8) with videos related to

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Bioscience Reports|November 1, 1982
'De novo' centrioles originate at sites associated with annulate lamellae in sea-urchin eggsR J Kallenbach
European Journal of Cell Biology|May 1, 1983
The induction of de novo centrioles in sea urchin eggs: a possible common mechanism for centriolar activation among parthenogenetic proceduresR J Kallenbach
Journal of Cell Science|February 1, 1985
Ultrastructural analysis of the initiation and development of cytasters in sea-urchin eggsR J Kallenbach
Cell Biology International Reports|November 1, 1982
Continuous hypertonic conditions activate and promote the formation of new centrioles within cytasters in sea urchin eggsR J Kallenbach
Bioscience Reports|December 1, 1983
Do centrioles contain ribosomes?R J Kallenbach
Cell and Tissue Research|January 1, 1984
Endoplasmic reticulum whorls as a source of membranes for early cytaster formation in parthenogenetically stimulated sea urchin eggsR J Kallenbach
European Journal of Cell Biology|August 1, 1982
Origin and maturation of centrioles in association with the nuclear envelope in hypertonic-stressed sea urchin eggsR J Kallenbach, D Mazia
Cell Calcium|February 1, 1983
Distinctive subcellular alterations induced by hypertonic stress in sea urchin eggsR J Kallenbach, N Paweletz, E M Finze
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Bioscience Reports|November 1, 1982
'De novo' centrioles originate at sites associated with annulate lamellae in sea-urchin eggsR J Kallenbach
European Journal of Cell Biology|May 1, 1983
The induction of de novo centrioles in sea urchin eggs: a possible common mechanism for centriolar activation among parthenogenetic proceduresR J Kallenbach
Journal of Cell Science|February 1, 1985
Ultrastructural analysis of the initiation and development of cytasters in sea-urchin eggsR J Kallenbach
Cell Biology International Reports|November 1, 1982
Continuous hypertonic conditions activate and promote the formation of new centrioles within cytasters in sea urchin eggsR J Kallenbach
Bioscience Reports|December 1, 1983
Do centrioles contain ribosomes?R J Kallenbach
Cell and Tissue Research|January 1, 1984
Endoplasmic reticulum whorls as a source of membranes for early cytaster formation in parthenogenetically stimulated sea urchin eggsR J Kallenbach
European Journal of Cell Biology|August 1, 1982
Origin and maturation of centrioles in association with the nuclear envelope in hypertonic-stressed sea urchin eggsR J Kallenbach, D Mazia
Cell Calcium|February 1, 1983
Distinctive subcellular alterations induced by hypertonic stress in sea urchin eggsR J Kallenbach, N Paweletz, E M Finze
Pageof 1