Abstract
Normal propagation of Y chromosome lampbrush loops was used as a screening tool in order to recover X-linked mutations controling Y chromosome activation. The nature of the most extreme mutationthus recovered, sterile (1) XL2, is described. It is a recessive gene mutation, readily mapped 2 cross over units distally to white. The mutation exerts its sterilizing effect by blocking normal unfolding of all Y lampbrush loops, but does not affect the unique shape of each diminutive loop. The degree to which a loop forming site is developed is partially temperature sensitive. It is independent however, on its map location or the dose of homologous as well as heterologous sites. It was provisionally concluded therefore that site response to the XL2 effect is a stage specific and not a quantitative one. The possible ways by which non homologous genes control Y chromosome activity are discussed.
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