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Diversity in expression of myosin heavy chain isoforms and M-band proteins in rat muscle spindles 总被引:1,自引:0,他引:1
The composition of adult rat soleus muscle spindles, with respect to myosin heavy chain isoforms and M-band proteins, was studied by light-microscope immunohistochemistry. Serial sections were labelled with antibodies against slow tonic, slow twitch, fast twitch and neonatal myosin isoforms as well as against myomesin, M-protein and the MM form of creatine kinase. Intrafusal fiber types were distinguished according to the pattern of ATPase activity following acid and alkaline preincubations. Nuclear bag1 fibers were always strongly stained throughout with anti-slow tonic myosin, were positive for anti-slow twitch myosin towards and in the C-region but were unstained with anti-fast twitch and anti-neonatal myosins. The staining of nuclear bag2 fibers was in general highly variable. However, they were most often strongly stained by anti-slow tonic myosin in the A-region and gradually lost this reactivity towards the poles, whereas a positive reaction with anti-slow twitch myosins was found along the whole fiber. Regional staining variability with anti-neonatal and anti-fast myosins was apparent, often with decreasing intensity towards the polar regions. Nuclear chain fibers showed strong transient reactivity with anti-slow tonic myosin in the equatorial region, did not react with anti-slow twitch and were always evenly stained by anti-fast twitch and anti-neonatal myosins. All three intrafusal fiber types were stained with anti-myomesin. Nuclear bag1 fibers lacked staining for M-protein, whereas bag2 fibers displayed intermediate staining, with regional variability, often increasing in reactivity towards the polar regions. Chain fibers were always strongly stained by anti-M-protein. The MM form of creatine kinase was present in all three fiber types, but bag1 fibers were less reactive and clear striations were not observed, in contrast to bag2 and chain fibers. Out of 38 cross sectioned spindles two were found to have an atypical fiber composition (lack of chain fibers) and a rather diverse staining pattern for the different antibodies tested. Taken together, the data show that in adult rat soleus, slow tonic and neonatal myosin heavy chain isoforms are only expressed in the muscle spindle fibers and that each intrafusal fiber type has a unique, although variable, composition of myosin heavy chain isoforms and M-band proteins. We propose that both motor and sensory innervation might be the determining factors regulating the variable expression of myosin heavy chain isoforms and M-band proteins in intrafusal fibers of rat muscle spindles. 相似文献
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The localization of the different forms of troponin I in skeletal and cardiac muscle cells 总被引:1,自引:0,他引:1
- 1. 1. Antibodies raised against troponin I isolated from human cardiac and rabbit fast and slow skeletal muscles have been shown to be specific for the polymorphic forms of troponin I against which they were raised, i.e. they are tissue specific.
- 2. 2. These antibodies reacted with the polymorphic forms of troponin I, against which they were raised, that are present in tissues of other species such as the rhesus monkey, hamster and rat, i.e. they were species non-specific.
- 3. 3. Using the immunoperoxidase staining technique it has been shown that the fast and slow forms of troponin I are located in different cells in virtually all adult normal muscles examined.
- 4. 4. By comparison of the ATPase staining of skeletal muscle sections at pH 9.4 and 4.2 it is concluded that the fast form of troponin I is located in type II fibres and the slow form in type I fibres.
- 5. 5. It is suggested that immunoperoxidase staining with the antibodies to the fast and slow forms of troponin I provides an unambiguous new method of muscle fibre typing.
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Differentiation of myogenic cells in micromass cultures of cells from chick facial primordia 总被引:2,自引:0,他引:2
Antibodies to the myosin heavy chains of striated muscle were used to trace myogenic differentiation in the developing face and in cultures of cells from the facial primordia of chick embryos. In the intact face, myogenic cells differentiate first in the mandibular primordia and can be detected at stage 28. The early muscle blocks contain both fast and slow classes of myosin heavy chains. At stages 20 and 24, no myogenic cells are found in any of the facial primordia. However, when the cells are placed in micromass (high density) cultures, myogenic cells differentiate, revealing the presence of potentially myogenic cells in all the facial primordia. The number of myogenic cells bears no consistent relationship to the extent and pattern of chondrogenesis. Therefore the ability of the cell populations of the facial primordia to differentiate into cartilage when placed in culture is independent of the muscle cell lineage. The facial primordia represent a mixed cell population of neural crest and mesodermal cells from at least as early as stage 18. 相似文献
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The importance of SULF1 in modulating the activities of multiple signalling molecules is now well established. Several studies, however, reported little or no effect of Sulf1 null mutations, questioning the relevance of this gene to in vivo development. The failure of SULF1 deletion to influence development may be predicted if one considers the involvement of a naturally occurring SULF1 antagonist, generated by alternative splicing of the same gene. We demonstrate that while the previously described SULF1 (SULF1A) enhances Wnt signalling, the novel shorter isoform (SULF1B) inhibits Wnt signalling. Our studies show developmental stage specific changes in the proportions of SULF1A and SULF1B isoforms at both the mRNA and protein levels in many developing tissues, with particularly pronounced changes in developing and adult blood vessels. Unlike SULF1A, SULF1B promotes angiogenesis and is highly expressed in endothelial cells during early blood vessel development while SULF1A predominates in mature endothelial cells. We propose that the balance of two naturally occurring SULF1 variants, with opposing functional activities, may regulate the overall net activities of multiple secreted factors and the associated signalling cascades essential for normal development and maintenance of most tissues. 相似文献
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G. K. Dhoot 《Histochemistry and cell biology》1992,97(6):479-486
Summary Three monoclonal antibodies (LM5, F2 and F39) to the fast class of myosin heavy chain (MHC) were used to study the effect of denervation on the differentiation of muscle cell types in some rat skeletal muscles. Antibody LM5 in immunocytochemical investigations did not stain any myotubes during early fetal development but presumptive fast muscle cells started to stain during later fetal development. Unlike antibody LM5, antibodies F2 and F39 stained all myotubes during fetal development. The suppression of fast myosin heavy chains recognised in presumptive slow muscle cells was observed within 1–2 days after birth with antibody F39 but not until 10–14 days after birth with antibody F2. The emergence of subsets of fast muscle fibre types in rat extensor digitorum longus (EDL) and tibialis anteri (TA) detectable by F39 and F2 antibodies was not observed until 2–3 weeks after birth. Denervation of developing muscles led to marked changes in the expression of myosins identified by these antibodies. 相似文献
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The evolutionary origin of the pinnipeds (seals, sea lions, and walruses)
is still uncertain. Most authors support a hypothesis of a monophyletic
origin of the pinnipeds from a caniform carnivore. A minority view suggests
a diphyletic origin with true seals being related to the mustelids (otters
and ferrets). The phylogenetic relationships of the walrus to other
pinniped and carnivore families are also still particularly problematic.
Here we examined the relative support for mono- and diphyletic hypotheses
using DNA sequence data from the mitochondrial small subunit (12S) rRNA and
cytochrome b genes. We first analyzed a small group of taxa representing
the three pinniped families (Phocidae, Otariidae, and Odobenidae) and
caniform carnivore families thought to be related to them. We inferred
phylogenetic reconstructions from DNA sequence data using standard
parsimony and neighbor-joining algorithms for phylogenetic inference as
well as a new method called spectral analysis (Hendy and Penny) in which
phylogenetic information is displayed independently of any selected tree.
We identified and compensated for potential sources of error known to lead
to selection of incorrect phylogenetic trees. These include sampling error,
unequal evolutionary rates on lineages, unequal nucleotide composition
among lineages, unequal rates of change at different sites, and
inappropriate tree selection criteria. To correct for these errors, we
performed additional transformations of the observed substitution patterns
in the sequence data, applied more stringent structural constraints to the
analyses, and included several additional taxa to help resolve long,
unbranched lineages in the tree. We find that there is strong support for a
monophyletic origin of the pinnipeds from within the caniform carnivores,
close to the bear/raccoon/panda radiation. Evidence for a diphyletic origin
was very weak and can be partially attributed to unequal nucleotide
compositions among the taxa analyzed. Subsequently, there is slightly more
evidence for grouping the walrus with the eared seals versus the true
seals. A more conservative interpretation, however, is that the walrus is
an early, but not the first, independent divergence from the common
pinniped ancestor.
相似文献
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