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The loss of fragile Y chromosomes (comment on 10.1002/bies.201500040) (2015)

Paul D. Waters

Wiley

In: BioEssays

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Publication Date: 2015-08-11

Print ISSN: 0265-9247

Electronic ISSN: 1521-1878

Topics: Biology , Medicine

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Andrew Moore

Wiley

In: BioEssays

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Publication Date: 2015-08-12

Print ISSN: 0265-9247

Electronic ISSN: 1521-1878

Topics: Biology , Medicine

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Dissecting the cannabinergic control of behavior: The where matters (2015)

Arnau Busquets-Garcia, Tifany Desprez, Mathilde Metna-Laurent, Luigi Bellocchio, Giovanni Marsicano, Edgar Soria-Gomez

Wiley

In: BioEssays

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Publication Date: 2015-08-12

Description: The endocannabinoid system is the target of the main psychoactive component of the plant Cannabis sativa , the Δ 9 -tetrahydrocannabinol (THC). This system is composed by the cannabinoid receptors, the endogenous ligands, and the enzymes involved in their metabolic processes, which works both centrally and peripherally to regulate a plethora of physiological functions. This review aims at explaining how the site-specific actions of the endocannabinoid system impact on memory and feeding behavior through the cannabinoid receptors 1 (CB 1 R). Centrally, CB 1 R is widely distributed in many brain regions, different cell types (e.g. neuronal or glial cells) and intracellular compartments (e.g. mitochondria). Interestingly, cellular and molecular effects are differentially mediated by CB 1 R according to their cell-type localization (e.g. glutamatergic or GABAergic neurons). Thus, understanding the cellular and subcellular function of CB 1 R will provide new insights and aid the design of new compounds in cannabinoid-based medicine. The widespread localization of CB1 receptors in different brain regions (e.g. hippocampus, hypothalamus, and cortex), cell types (e.g. GABAergic and glutamatergic neurons), and subcellular domains (e.g. plasma membrane and mitochondria) allows the endocannabinoid system to control different behaviors (e.g. memory and food intake) in a multimodal and versatile fashion. Also watch the Video Abstract .

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Electronic ISSN: 1521-1878

Topics: Biology , Medicine

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Retroviral integration: Site matters (2015)

Jonas Demeulemeester, Jan De Rijck, Rik Gijsbers, Zeger Debyser

Wiley

In: BioEssays

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Publication Date: 2015-08-22

Description: Here, we review genomic target site selection during retroviral integration as a multistep process in which specific biases are introduced at each level. The first asymmetries are introduced when the virus takes a specific route into the nucleus. Next, by co-opting distinct host cofactors, the integration machinery is guided to particular chromatin contexts. As the viral integrase captures a local target nucleosome, specific contacts introduce fine-grained biases in the integration site distribution. In vivo, the established population of proviruses is subject to both positive and negative selection, thereby continuously reshaping the integration site distribution. By affecting stochastic proviral expression as well as the mutagenic potential of the virus, integration site choice may be an inherent part of the evolutionary strategies used by different retroviruses to maximise reproductive success. Retroviral integration is a multistep process moulded by nuclear entry, host cofactors and target recognition by the viral integrase. At each level, biases are introduced and the resulting distribution is reshaped by host selection processes. By affecting gene expression, site selection represents a selectable part of the retroviral evolutionary strategy.

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Topics: Biology , Medicine

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N6-methyladenine functions as a potential epigenetic mark in eukaryotes (2015)

Qinmiao Sun, Shoujun Huang, Xiaona Wang, Yuanxiang Zhu, Zhenping Chen, Dahua Chen

Wiley

In: BioEssays

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Publication Date: 2015-08-22

Description: N 6 -methyladenine (6mA) is one of the most abundant types of DNA methylation, and plays an important role in bacteria; however, its roles in higher eukaryotes, such as plants, insects, and mammals, have been considered less important. Recent studies highlight that 6mA does indeed occur, and that it plays an important role in eukaryotes, such as worm, fly, and green algae, and thus the regulation of 6mA has emerged as a novel epigenetic mechanism in higher eukaryotes. Despite this intriguing development, a number of important issues regarding its biological roles are yet to be addressed. In this review, we focus on the 5mC and 6mA modifications in terms of their production, distribution, and the erasure of 6mA in higher eukaryotes including mammals. We perform an analysis of the potential functions of 6mA, hence widening understanding of this new epigenetic mark in higher eukaryotes, and suggesting future studies in this field. Like 5mC, 6mA functions as a potential epigenetic mark in higher eukaryotes. The expression of target genes can be modulated via dynamic and reversible pattern of DNA methylation in a variety of biological processes.

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Topics: Biology , Medicine

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BioEssays 9∕2015 (2015)

Wiley

In: BioEssays

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Publication Date: 2015-08-25

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Topics: Biology , Medicine

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BioEssays 9∕2015 (2015)

Wiley

In: BioEssays

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Publication Date: 2015-08-25

Description: Rotate and activate . On pages 959–967 , Ichiro Maruyama proposes a “rotation model” for the activation of transmembrane cell-surface receptors. Following this model, receptors exist in a dimeric form prior to ligand binding. The extracellular domain (ECD) has a rotationally flexible structure while the intracellular domain (ICD) is relatively stable. Ligand binding stabilizes the flexible ECD and induces conformational changes of the domains. This in turn induces or allows a rotation of the transmembrane domains leading to a rearrangement of the ICD, hence making the ICD flexible for activation of/interaction with cytoplasmic proteins.

Print ISSN: 0265-9247

Electronic ISSN: 1521-1878

Topics: Biology , Medicine

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