Herbert Jacob scite author profile

Interspecific grafts of somites, as well as parts of the somatic plate mesoderm, have been made between quail and chick embryos (stages 12--14 H. H.) at the level of the prospective wing bud in order to examine the relationship between somites and wing bud myogenesis. The stability of the natural quail nuclear labelling makes it possible to follow the developmental fate of grafted mesodermal cells in the host embryo. Embryos examined after subsequent incubation periods of 3--7 days show the following distribution of somatic and somitic cells within the wing bud: as soon as the three zones of different cell density within the mesoderm can be distinguished, cells of somitic origin are limited to the prospective myogenic area which is made up of mixed population of somatic and somitic cells, whereas the prospective chondrogenic area as well as the subectodermal zone only consists of cells originated from the somatic plate mesoderm. After further incubation, single muscle blastema are present which were also seen to be a mixture of somatic and somitic cells. The cells of muscular bundles are of somitic origin, while the muscle connective tissue cells are derived from the somatic plate mesoderm. After grafting into the coelomic cavity or on the chorio-allantoic membrane, fragments of the somatic plate mesoderm previously isolated from quail embryos (stage 14 H.H.) at the level of the prospective wing bud exhibit well developed skeletal elements, but fail to differentiate any musculature. These experimental investigations support previous evidence for a somitic origin of wing bud myogenic cells. Histological and scanning electron microscopic studies of the brachial somites and the adjacent somatic plate mesoderm of chick embryo (stages 13--15 H.H.) reveal that migration of still undifferentiated somitic cells into the brachial somatic plate mesoderm begins to take place in embryos at stage 14.

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Marxist Class Categories and Income Inequality

Cressey¹,

Lynn²,

Farrell³

et al. 1977

American Sociological Review

348

150

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Black and White Perceptions of Justice in the City

Jacob¹

1971

Law & Society Review

184

142

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On the origin and development of the ventrolateral abdominal muscles in the avian embryo

1983

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In avian embryos the formation of ventrolateral abdominal muscles was studied by (1) heterospecific grafting experiments between chick and quail embryos and (2) ultrastructural examinations of cells having part in this process. The results demonstrate that the muscle cells are of somitic origin while the connective tissue derives from the somatopleure. Somatopleural cells do not differentiate into myocytes, and somite cells which have entered the ventrolateral abdominal wall, do not contribute to the connective tissue. It is concluded that both dermatome and myotome cells undergo muscular differentiation. The formation of muscles is found to take place in four characteristic steps. During the 4th day of development, epithelially structured ventral somite buds enter the somatopleure. The light cells of the inner myotome layer are elongated in a cranio-caudal direction and contain randomly distributed microfilaments. On the 5th day, the buds lose their epithelial arrangement and change into compact processes in which cells intermingle. The myotome cells show short bundles of thin and thick microfilaments. The third step can be characterized by the appearance of intercellular spaces and the disaggregation of processes becoming invaded by somatopleural cells. Thus, subdivision in single muscle blastemata begins to occur. In 7-day embryos, the muscle anlagen are distinctly separated and the first myotubes containing regularly arranged myofibrils are found. Coincidentally, signs of cell death are observed. Up to the 10th day, the tendons being of somatopleural origin become plainly outlined and the muscle anlagen move to their definitive positions. It is assumed that the formation of muscle pattern is controlled by the somatopleure.

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Reciprocal feedback regulation of kidney angiotensinogen and renin mRNA expressions by angiotensin II

Schunkert

Ingelfinger

Jacob

et al. 1992

American Journal of Physiology-Endocrinology and Metabolism

106

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The present study asks whether angiotensin II (ANG II), a potent inhibitor of renal renin synthesis and release, regulates renal angiotensinogen synthesis. ANG II (or vehicle) was intravenously infused into male Sprague-Dawley rats for 3 days (vehicle or 100, 300, and 1,000 ng.kg-1 x min-1, n = 8/group), significantly increasing mean plasma ANG II concentrations and raising mean arterial blood pressure (MAP). ANG II dose dependently suppressed plasma renin concentration, kidney renin concentration, and renal renin mRNA levels. In contrast, ANG II infusion increased renal angiotensinogen mRNA levels stepwise to 122, 136 (P < 0.05), and 150% (P < 0.05) of control and also increased both liver mRNA levels (P < 0.05) and plasma angiotensinogen concentration (P < 0.05). Three days of angiotensin-converting enzyme inhibition (10 mg.kg-1 x day-1 quinapril in drinking water, n = 8) significantly decreased MAP (P < 0.05) and increased both mean plasma renin concentration (P < 0.05) and renal renin mRNA levels (P < 0.005). Plasma ANG II concentration tended to decrease (not significant), and neither renal nor hepatic angiotensinogen mRNA levels displayed significant difference. However, when data from ANG II-infused and quinapril-treated rats were analyzed together, correlation between plasma ANG II concentrations and renal angiotensinogen mRNA levels was highly significant (P < 0.005, r = 0.585). Thus plasma ANG II upregulates renal angiotensinogen gene expression and downregulates renal renin gene expression, a reciprocal feedback regulation that may have important physiological consequences.

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Herbert Jacob

Experimental analysis of the origin of the wing musculature in avian embryos

Marxist Class Categories and Income Inequality

Black and White Perceptions of Justice in the City

On the origin and development of the ventrolateral abdominal muscles in the avian embryo

Reciprocal feedback regulation of kidney angiotensinogen and renin mRNA expressions by angiotensin II

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