Oasis de M'hamid. El Ghizlane.

"En la línea de trabajo que hemos seguido, en todo momento hemos tenido en cuenta que una mejora en las condiciones de vida de la población no sería posible sin: _ la creación de nuevas actividades productivas que puedan dar trabajo a los hombres y generar economía en estos pueblos _ un mejor acondicionamiento de los espacios públicos donde mujeres y niños pasan la mayor parte del día actualmente A escala territorial, la mejora en el sistema hídrico podría ayudar a una mejor explotación agrícola de las tierras, permitiendo con el tiempo, generar una actividad productiva con la venta de cultivos (existente en otras partes de la provincia) A escala urbana, . poner en valor las construcciones tradicionales y evitar que se pierda la forma tradicional de construcción con tierra característica de estos pueblos con la introducción de la técnica del btc empleando un 2-7% de cemento, con lo que conseguiríamos lo bueno del hormigón [ausencia de mantenimiento y rapidez en la construcción] y de la tierra [buen funcionamiento térmico] . una mejora en las competencias técnicas de quienes se dedican a la construcción y el aprendizaje de un nuevo oficio por parte de otros, haciéndoles partícipes de la construcción de su propio entorno. Un año después de la llegada de los talleres de construcción con tierra a los pueblos del oasis, se han producido algunos cambios que suponemos estaban ya a punto de florecer. La construcción de una red hídrica que deriva el agua a las casas en M´Hamid ha empezado a construirse mientras llevábamos a cabo el análisis para esta práctica.

Telomere length regulation: coupling DNA end processing to feedback regulation of telomerase

The conventional DNA polymerase machinery is unable to fully replicate the ends of linear chromosomes. To surmount this problem, nearly all eukaryotes use the telomerase enzyme, a specialized reverse transcriptase that utizes its own RNA template to add short TG-rich repeats to chromosome ends, thus reversing their gradual erosion occurring at each round of replication. This unique, non-DNA templated mode of telomere replication requires a regulatory mechanism to ensure that telomerase acts at telomeres whose TG tracts are too short, but not at those with long tracts, thus maintaining the protective TG repeat cap at an appropriate average length. The prevailing notion in the field is that telomere length regulation is brought about through a negative feedback mechanism that counts TG repeat-bound protein complexes to generate a signal that regulates telomerase action. This review summarizes experiments leading up to this model and then focuses on more recent experiments, primarily from yeast, that begin to suggest how this counting mechanism might work. The emerging picture is that of a complex interplay between the conventional DNA replication machinery, DNA damage response factors, and a specialized set of proteins that help to recruit and regulate the telomerase enzyme

From the Body of the King to the Body of the Nation: Sovereignty, Sodomy, and the English Revolution of 1688

This article explores how rumors of monarchical sodomy at the turn of the eighteenth century became entangled with newly emerging conceptions of the nation and nationalized space. After the 1688 Revolution in England, accusations of the king's sodomy increasingly mobilize territorial rather than theological understandings of sodomy's danger, transforming sodomy's terror from a satanic threat to the Christian kingdom to a national threat to the English nation. While historical studies on the territorialization of sovereignty often focus on structural transformations to the state, these accounts rarely attend to transformations in political feeling. This article shows how a novel discourse of national sodomy helped unsettle long-standing attachments to the king as the embodiment of sovereign power. Moreover, this article methodologically innovates the study of state sovereignty by attending to conceptual problems of political attachment through the study of an affectively loaded concept such as sodomy

Grooming Authoritarianism: Anti-Trans/Queer Panic as Pedagogy for Democratic Decline

We address the anti-trans/queer panic integral to the ascendance of authoritarian politics in America and respond by calling on all political scientists to “queer” political science by undoing the cisheteronormativity of the discipline. We contend that this is not the special obligation of LGBTQ scholars but all political scientists. In this we follow Eve Sedgwick’s orientation away from a “minoritizing” to a “universalizing” epistemological perspective that situates this responsibility relative to resisting democratic decline

CDK targets Sae2 to control DNA-end resection and homologous recombination

DNA double-strand breaks (DSBs) are repaired by two principal mechanisms: non-homologous end-joining (NHEJ) and homologous recombination (HR)1. HR is the most accurate DSB repair mechanism but is generally restricted to the S and G2 phases of the cell cycle, when DNA has been replicated and a sister chromatid is available as a repair template2-5. By contrast, NHEJ operates throughout the cell cycle but assumes most importance in G1 (refs 4​, ​6). The choice between repair pathways is governed by cyclin-dependent protein kinases (CDKs)2,3,5,7, with a major site of control being at the level of DSB resection, an event that is necessary for HR but not NHEJ, and which takes place most effectively in S and G2 (refs 2​, ​5). Here we establish that cell-cycle control of DSB resection in Saccharomyces cerevisiae results from the phosphorylation by CDK of an evolutionarily conserved motif in the Sae2 protein. We show that mutating Ser 267 of Sae2 to a non-phosphorylatable residue causes phenotypes comparable to those of a sae2Δ null mutant, including hypersensitivity to camptothecin, defective sporulation, reduced hairpin-induced recombination, severely impaired DNA-end processing and faulty assembly and disassembly of HR factors. Furthermore, a Sae2 mutation that mimics constitutive Ser 267 phosphorylation complements these phenotypes and overcomes the necessity of CDK activity for DSB resection. The Sae2 mutations also cause cell-cycle-stage specific hypersensitivity to DNA damage and affect the balance between HR and NHEJ. These findings therefore provide a mechanistic basis for cell-cycle control of DSB repair and highlight the importance of regulating DSB resection

DNA resection in eukaryotes: deciding how to fix the break

DNA double-strand breaks are repaired by different mechanisms, including homologous recombination and nonhomologous end-joining. DNA-end resection, the first step in recombination, is a key step that contributes to the choice of DSB repair. Resection, an evolutionarily conserved process that generates single-stranded DNA, is linked to checkpoint activation and is critical for survival. Failure to regulate and execute this process results in defective recombination and can contribute to human disease. Here, I review recent findings on the mechanisms of resection in eukaryotes, from yeast to vertebrates, provide insights into the regulatory strategies that control it, and highlight the consequences of both its impairment and its deregulation

Sovereign Chaos and Riotous Affects, Or, How to Find Joy Behind the Barricades

A commonly deployed signifier to render the political event of a riot intelligible, ‘chaos’ describes an affective condition of disorder and disarray. For some theorists of affect, such a condition of chaotic unpredictability suggests emancipatory potential. Recounting the 2018 May Day / May 1st protests in Paris, that both politicians and media declared to be a riot, this paper argues that to consider the riot as chaotic is to think and feel like a state. Critically interrogating the analytical purchase of ‘chaos’ to describe a riotous assembly of bodies, this paper contends that ‘chaos’ is not only a theoretically impoverished concept to understand such political events, but also that sovereignty mobilizes ‘chaos’ as an affective infrastructure of governance to shore up attachment to the security state. Repudiating the sovereign logic of chaos, this paper presents a first-person encounter with a protest-declared-riot in order to explore the various affects that materialize around such events. Through ethnographic reflection, this paper outlines a series of affects that accompanied the day’s events, such as speculative optimism, fragility, suspicion, fear, boldness, and joy. In so doing, the paper develops an affective approach to theorize relations of political antagonism in the street, arguing that whereas the state weaponizes terror as a form of governance, the rioters weaponize joy as an affective means of resistance

Analysis of repair mechanism choice during homologous recombination

Double-strand breaks (DSBs) occur frequently during cell growth. Due to the presence of repeated sequences in the genome, repair of a single DSB can result in gene conversion, translocation, deletion or tandem duplication depending on the mechanism and the sequence chosen as partner for the recombinational repair. Here, we study how yeast cells repair a single, inducible DSB when there are several potential donors to choose from, in the same chromosome and elsewhere in the genome. We systematically investigate the parameters that affect the choice of mechanism, as well as its genetic regulation. Our results indicate that intrachromosomal homologous sequences are always preferred as donors for repair. We demonstrate the occurrence of a novel tri-partite repair product that combines ectopic gene conversion and deletion. In addition, we show that increasing the distance between two repeated sequences enhances the dependence on Rad51 for colony formation after DSB repair. This is due to a role of Rad51 in the recovery from the checkpoint signal induced by the DSB. We suggest a model for the competition between the different homologous recombination pathways. Our model explains how different repair mechanisms are able to compensate for each other during DSB repair