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Digitale Medien

Heterochronic differences of Hoxa-11 expression in Xenopus fore- and hind limb development: Evidence for lower limb identity of the anuran ankle bones (1998)

Blanco, Maria J. ; Misof, Bernhard Y. ; Wagner, Günter P. ; [weitere]

Springer

Development genes and evolution 208 (1998), S. 175-187

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ISSN: 1432-041X

Schlagwort(e): Key words Limb development ; Heterochrony ; Evolutionary innovation ; Hoxa-11 ; Xenopus

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract The wrist (carpus) and ankle (tarsus) of most tetrapods, as well as the wrist of anurans, contains relatively small nodular skeletal elements. The anuran tarsus, however, comprises a pair of long bones, the proximal tarsals tibiale and fibulare, which resemble the lower leg bones, tibia and fibula (zeugopodium). In this paper we investigate whether the proximal tarsals of Xenopus are of zeugopodial character identity, i.e. whether they develop under the influence of the same genes that pattern the lower limb. We compare Hoxa-11 expression in the forelimb bud with that in the hind limb bud by whole-mount in situ hybridization. Hoxa-11 has been implicated in the development of the lower limb. In Xenopus we note three differences between Hoxa-11 expression in fore- and hind limb buds: (1) Hoxa-11 expression is maintained until the hind limb bud reaches a larger size (2 mm) than that of the forelimb bud (1.5 mm); (2) Hoxa-11 expression is maintained over larger spatial domains than in the forelimb; and (3) Hoxa-11 expression has a pronounced posterior polarity in the hind limb, but not in the forelimb. Hind limb expression of Hoxa-11 can be understood as a heterochronic prolonging of the expression dynamic in the forelimb. Finally we found that the proximal tarsals start to develop within the expression domain of Hoxa-11, while in the forelimb the lower arm elements reach the distal expression limit of Hoxa-11. The gene expression data presented here support the notion of a zeugopodial identity of the proximal tarsal elements in Xenopus.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s004270050172

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Digitale Medien

Small lesions in the primary visual cortex of rats cause a specific reorganization of associational connections (1985)

Wagner, Günter P. ; Wolff, Joachim R.

Springer

Cell & tissue research 242 (1985), S. 357-364

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ISSN: 1432-0878

Schlagwort(e): Cerebral cortex ; Associational connections ; Synaptogenesis, reactive ; Neuroplasticity ; 6-OHDA

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary Neuroplastic changes in associational connections were investigated 3 weeks after the intrinsic organization of the visual cortex of rats had been partially damaged by small cylindrical lesions (type I). These lesions caused the degeneration of short intracortical connections and associational connections that form patches in the primary and secondary visual areas. The resulting terminal degeneration disappeared within 20 days p.o. after which only some fiber degeneration was evident in the infragranular layers. Patches of terminal degeneration reappeared in the vicinity of the stab wounds, when the associational connections between the retrosplenial and the primary visual cortex had been secondarily interrupted by elongated lesions (type II), which penetrated the paramedian cortex and subcortical white matter. When type-II lesions were made in the intact cortex, patches of degeneration were absent, although in both cases some terminal degeneration was diffusely distributed in the primary visual cortex. Horseradish peroxidase (HRP) was applied to sites similar to those where type-I lesions were applied. In the intact cortex, HRP caused a granular labeling of numerous neurons in various positions including the retrosplenial cortex and patches of the postero-median visual cortex. HRP was also applied to type-I lesions that had been made 3 weeks earlier. In these cases, apparently HRP labeled the same subpopulations of neurons as it did in the intact cortex. However, a fraction of the labeled neurons showed a Golgilike staining (e.g., 27% of the labeled neurons in the retrosplenial cortex) only when HRP was applied to stab wounds. These results suggest that the breakdown of corticocortical connections in foci of the primary visual cortex causes a focal augmentation of specific associational connections, which are weak and diffusely distributed in the intact adult cortex of rats. Re-innervation originates from subpopulations of associative neurons in the retrosplenial and postero-median visual cortex. Preliminary experiments indicate that the failure of neonatal treatment with 6-OHDA to suppress this lesion-induced plasticity is not dependent on an intact noradrenergic innervation.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00214548

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