Inhaltsangabe
Homology Effects offers contributions from an international panel of researchers whose aim has been both to introduce newcomers to the field of homology effects, and to bring colleagues up to date. Topic coverage includes dosage compensation, X-inactivation, imprinting, paramutation, homology-dependent gene silencing, transvection, pairing-sensitive silencing, nuclear organization of chromosomes, DNA repair, quelling, RIP, RNAi and antisense biology, homology effects in ciliates, prion biology, and a discourse on the evolution of gene duplications. Advances in Genetics presents an eclectic mix of articles of use to all human and molecular geneticists. They are written and edited by recognized leaders in the field and make this an essential series of books for anyone in the genetics field.
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The collective history of homology effects begins at the turn of the century and includes some of the most puzzling and extraordinary observations in biology. Homology Effects describes a fascinating class of phenomena found in mammals, plants, insects, ciliates, nematodes, fungi, and bacteria, including processes at the DNA and/or RNA level as well as at the protein level. Contributions from an international panel of researchers aim both to introduce newcomers to the field of homology effects and to bring their colleagues up to date. Topics include dosage compensation in Drosophila, X-inactivation in mammals, imprinting in mammals and plants, paramutation and homology-dependent gene silencing in plants, trasvection and pairing-sensitive silencing in Drosophila, chromosome organization in fungi, DNA repair in Drosophila, quelling and RIP in fungi, RNAi in namatodes, homology-dependent effects in ciliates, antisense RNA in bacteria, prion biology, and a discourse on the evolution of gene duplications.|The collective history of homology effects begins at the turn of the century and includes some of the most puzzling and extraordinary observations in biology.Homology Effects describes a fascinating class of phenomena found in mammals, plants, insects, ciliates, nematodes, fungi, and bacteria, including processes at the DNA and/or RNA level as well as at the protein level. Contributions from an international panel of researchers aim both to introduce newcomers to the field of homology effects and to bring their colleagues up to date. Topics include dosage compensation inDrosophila, X-inactivation in mammals, imprinting in mammals and plants, paramutation and homology-dependent gene silencing in plants, trasvection and pairing-sensitive silencing inDrosophila, chromosome organization in fungi, DNA repair in Drosophila, quelling and RIP in fungi, RNAi in namatodes, homology-dependent effects in ciliates, antisense RNA in bacteria, prion biology, and a discourse on the evolution of gene duplications.
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