Histochemistry of rat intrafusal muscle fibers and their motor innervation.

Kučera, Jan; Dorovini-Zis, Katerina; Engel, Werner

doi:10.1177/26.11.152786

Cited by 65 publications

(54 citation statements)

References 27 publications

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“…Moreover, we report that a regional variation of the acid stability of myofibrillar ATPase may occur in the polar zone of intrafusal fibres in chick PLD muscle spindles, a zone devoid of innervation. This observation is related to a similar variation in the polar zone of rat intrafusal fibres (Kucera et al, 1978). New examples are presented supporting the conclusion that the differentiation of the properties of ATPase activity, and thus of fibre types, takes place, at least in some cases, independently of the type of innervation received.…”

supporting

confidence: 48%

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Influence du type d'innervation des fibres musculaires sur l'acquisition des propriétés de l'ATPase myofibrillaire

Toutant¹

1982

Reprod. Nutr. Dévelop.

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Summary. Relationship between innervation and myofibrillar A TPase properties during deve%pment of chick muscles.We present some observations differing from the idea that neurons precisely control the differentiation of muscle fibre histochemical properties and show that, in a few cases, innervation does not influence the development of myofibrillar ATPase properties. Moreover, we report that a regional variation of the acid stability of myofibrillar ATPase may occur in the polar zone of intrafusal fibres in chick PLD muscle spindles, a zone devoid of innervation. This observation is related to a similar variation in the polar zone of rat intrafusal fibres (Kucera et al., 1978). New examples are presented supporting the conclusion that the differentiation of the properties of ATPase activity, and thus of fibre types, takes place, at least in some cases, independently of the type of innervation received.Introduction.

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supporting

confidence: 48%

“…Ces variations longitudinales sont souvent sans rapport avec la localisation des terminaisons fusimotrices (Kucera et al, 1978 (Koenig et Fardeau, 1973 ;Toutant et al, 1979 …”

Section: Introductionunclassified

Influence du type d'innervation des fibres musculaires sur l'acquisition des propriétés de l'ATPase myofibrillaire

Toutant¹

1982

Reprod. Nutr. Dévelop.

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“…Rat spindles that contain two bag fibers invariably contain one bag, fiber and one bag2 fiber (Kucera et al, 1978). Spindles that contain two baga and no bagl, or two bagl and no baga fibers, are not known to occur in spindles of mammals (Kucera et al, 1978;Kucera, 1983). The fiber identified as bagl had more motor endings than did the fiber identified as bag2 in the same spindle pole.…”

Section: Discussionmentioning

confidence: 97%

“…Sectioning began or terminated in the extreme polar region of another six spindle poles. No motor endings are present in this region (Kucera et al, 1978); thus few, if any, motor endings were omitted from analysis. Sectioning began at the limit of the capsule of one spindle pole; hence the motor innervation to the extracapsular region of this spindle pole could not be traced.…”

Section: Sample Sizementioning

confidence: 99%

Motor innervation of intrafusal fibers in rat muscle spindles: Incomplete separation of dynamic and static systems

Walro

Kučera

1985

Am. J. Anat.

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Distributions of 53 motor axons to different types of intrafusal fibers were reconstructed from serial 1-micron-thick transverse sections of 13 poles of spindles in the rat soleus muscle. The mean number of motor axons that innervated a spindle pole was 4.1. Approximately 60% of motor axons lost their myelination prior to or shortly after entry into the periaxial fluid space of spindles. Motor innervation to the juxtaequatorial portion of nuclear bag fibers (particularly the bag1) consisted of groups of short, synaptic contacts that were terminations of thin, unmyelinated axons. In contrast, motor endings on both the bag1 and bag2 fibers were platelike in the polar intracapsular region. Chain fibers had a single midpolar platelike ending. The ratio of motor axons that innervated the bag1 fiber exclusively to axons that innervated bag2 and/or chain fibers was 1:1. However, one-fourth of motor axons coinnervated the dynamic bag1 fiber in conjunction with static bag2 and/or chain fibers. Thus the complete separation of motor control of the dynamic bag1 and static bag2 intrafusal systems observed in cat tenuissimus spindles is neither representative of the pattern of motor innervation in all other species of mammals nor essential to normal spindle function.

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“…Arrowhead shows a hollow. x99,000 DISCUSSION Mammalian intrafusal fibers have been classified histochemically into three types according to their patterns of staining with oxidative enzymes, myofibrillar ATPase and phosphorylase (OGATA andMORI, 1962, 1964;OVALLE and SMITH, 1972;BARKER, 1974;BANKS et al, 1977;KUCERA et al, 1978). Ultrastructurally they can be distinguished by the characteristic structure of their Z-and M-lines and mitochondria; that is, chain fibers have distinct M-lines and well developed mitochondria, bag, fibers have thick Z-lines and faint, thin double M-lines and small mitochondria, and bag2 fibers have thin Z-lines, vague M-lines and medium size mitochondria (OVALLE, 1971(OVALLE, , 1972BARKER, 1974;BANKS et al, 1977).…”

Section: Nuclear Bag2 Fibermentioning

confidence: 99%

Ultra-High-Resolution Scanning Electron Microscopic Studies on the Sarcoplasmic Reticulum and Mitochondria of the Rat Intrafusal Muscle Fibers. Part I. The Capsular Sleeve Region

Ogata

Yamasaki

1991

Archives of Histology and Cytology

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Histochemistry of rat intrafusal muscle fibers and their motor innervation.

Cited by 65 publications

References 27 publications

Influence du type d'innervation des fibres musculaires sur l'acquisition des propriétés de l'ATPase myofibrillaire

Influence du type d'innervation des fibres musculaires sur l'acquisition des propriétés de l'ATPase myofibrillaire

Motor innervation of intrafusal fibers in rat muscle spindles: Incomplete separation of dynamic and static systems

Ultra-High-Resolution Scanning Electron Microscopic Studies on the Sarcoplasmic Reticulum and Mitochondria of the Rat Intrafusal Muscle Fibers. Part I. The Capsular Sleeve Region

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