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Division patterns in the thallus ofPelvetia compressa embryos and the effects of gravity (1998)

Henderson, D. C. ; Bisgrove, S. R. ; Hable, W. E. ; [et al.]

Springer

Protoplasma 203 (1998), S. 112-117

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ISSN: 1615-6102

Keywords: Brown alga ; Cleavage plane ; Embryogenesis ; Gravity ; Microtubules ; Spindle orientation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The pattern of divisions in the thallus ofPelvetia compressa embryos was determined with respect to the embryonic growth axis. To detect all possible division planes, embryos were viewed from two vantages which permitted observations of (1) the thallus pole and (2) the longitudinal embryonic profile. Following formation of rhizoid and thallus cells by any asymmetrical division transverse to the embryonic axis that is established prior to any divisions, the thallus cell divided twice along the embryonic axis (axial divisions) in orthogonal planes, and then divided transverse to the growth axis. This division pattern produced an eight-cell thallus with four cells in each of two layers. The spatial relation between gravity and the first axial division was investigated, and gravity was found to have little effect on the alignment of this division. The reproducible pattern of divisions in the thallus indicates spatial control of spindle positioning.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01280593

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A comparison of shortening and Z line degradation in post-mortem bovine, porcine, and rabbit muscleJournal Paper J-6254 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa, Project 1549. Supported in part by Public Health Servie Research grant GM 12488. (1970)

Henderson, D. W. ; Goll, Darrel E. ; Stromer, M. H.

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 128 (1970), S. 117-135

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ISSN: 0002-9106

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Ultrastructural changes in bovine, porcine, and rabbit muscle have been studied during the first 24 hours post-mortem. Samples were taken for phase and electron microscopy immediately after death, after 4, 8, and 24 hours of post-mortem storage at 2° and 37°C, and after 24 hours post-mortem at 16° and 25°C. The results show that two kinds of structural changes occur in muscle during the first 24 hours post-mortem: (a) a variable amount of shortening, this shortening occurring via a sliding of filaments in all species and at all post-mortem storage temperatures examined, and (b) degradation of the Z line, and at higher storage temperatures, of the M line also. Shortening of unrestrained muscle occurs soonest post-mortem at 37°C in all three species and is completed within four hours post-mortem in porcine and rabbit muscle and within eight hours post-mortem in bovine muscle. Post-mortem short-ening of unrestrained rabbit and porcine muscle is greatest at 37°C (sarcomere lengths of 1.5 μ); shortening of rabbit muscle is minimal at 2°C (sarcomere lenght of 1.7 μ), but shortening of porcine muscle is minimal at 25°C (sarcomere length of 1.8 μ) and is slightly greater at 2°C (sarcomere length of 1.6 μ) than at 16°C. Post-mortem shortening of bovine muscle is greatest at 2°C (sarcomere length of 1.3 μ), is minimal at 16-25°C (sarcomere length of 1.8 μ), and increases between 25-37°C (sarcomere length of 1.5 μ at 37°C). Sarcomere length measurements show that some variation occurs in the extent of post-mortem shortening within the same muscle.Z line degradation occurs sooner post-mortem and to a greater extent at storage temperatures of 25°C or above than at temperatures of 16°C or below. Also, bovine muscle Z lines are clearly more resistant to post-mortem degradation than porcine or rabbit muscle Z lines. Loss of fibrillar structure in porcine or rabbit muscle Z lines occurs during the first four hours post-mortem at 37°C, but eight hours of post-mortem storage at 37°C are required to cause loss of fibrillar structure of bovine muscle Z lines. After 24 hours at 25 or 37°C, Z lines of rabbit and porcine muscle are usually completely absent; M lines are also frequently absent in this muscle.

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