Development, Genetics and Molecular Biology of Mosses

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<jats:title>Abstract:</jats:title><jats:p>The first descriptions of sex chromosomes in plants, of the continuity of chromosomes during the mitotic cycle and of non‐Mendelian inheritance as well as the introduction of UV‐mutagenesis to genetic research are landmarks in biological sciences first achieved by scientists working on bryophytes. Haploidy of the tissue facilitates mutant isolation and many developmental moss mutants have been isolated. Early moss development is triggered by auxin, by cytokinin and by light, mainly acting via phytochrome and a blue‐light receptor. Due to the simplicity of the plants, development can be pinpointed to the differentiation of a single cell and be analysed in living tissue, making mosses ideal candidates for the analysis of development in an integrated approach of cell and molecular biology. Molecular genetic techniques have been applied mainly to <jats:italic>Physcomitrella patens</jats:italic> (Hedw.) B.S.G., where efficient protocols for transformation of nuclear DNA have been established and several nuclear, chloroplast and mitochondrial genes have been analysed. These studies reveal that <jats:italic>Physcomitrella</jats:italic> may be an appropriate model to study plant development in molecular terms. Recently, it has been shown that, in this species, nuclear genes can be targeted very efficiently by homologous recombination, now opening the door to reverse genetics for plant biologists.</jats:p>

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