88 research outputs found
Global Filipinos: Migrants' Lives in the Virtual Village
Contract workers from the Philippines make up one of the world's largest movements of temporary labor migrants. Deirdre McKay follows Filipino migrants from one rural community to work sites overseas and then home again. Focusing on the experiences of individuals, McKay interrogates current approaches to globalization, multi-sited research, subjectivity, and the village itself. She shows that rather than weakening village ties, temporary labor migration gives the village a new global dimension created in and through the relationships, imaginations, and faith of its members in its potential as a site for a better future
Concentrating pre-mRNA processing factors in the histone locus body facilitates efficient histone mRNA biogenesis
The histone locus body (HLB) assembles at replication-dependent histone genes and concentrates factors required for histone messenger RNA (mRNA) biosynthesis. FLASH (Flice-associated huge protein) and U7 small nuclear RNP (snRNP) are HLB components that participate in 3ā² processing of the nonpolyadenylated histone mRNAs by recruiting the endonuclease CPSF-73 to histone pre-mRNA. Using transgenes to complement a FLASH mutant, we show that distinct domains of FLASH involved in U7 snRNP binding, histone pre-mRNA cleavage, and HLB localization are all required for proper FLASH function in vivo. By genetically manipulating HLB composition using mutations in FLASH, mutations in the HLB assembly factor Mxc, or depletion of the variant histone H2aV, we find that failure to concentrate FLASH and/or U7 snRNP in the HLB impairs histone pre-mRNA processing. This failure results in accumulation of small amounts of polyadenylated histone mRNA and nascent read-through transcripts at the histone locus. Thus, the HLB concentrates FLASH and U7 snRNP, promoting efficient histone mRNA biosynthesis and coupling 3ā² end processing with transcription termination
The genetics of inherited cholestatic disorders in neonates and infants: evolving challenges
Many inherited conditions cause cholestasis in the neonate or infant. Next-generation sequencing methods can facilitate a prompt diagnosis in some of these cases; application of these methods in patients with liver diseases of unknown cause has also uncovered novel gene-disease associations and improved our understanding of physiological bile secretion and flow. By helping to define the molecular basis of certain cholestatic disorders, these methods have also identified new targets for therapy as well patient subgroups more likely to benefit from specific therapies. At the same time, sequencing methods have presented new diagnostic challenges, such as the interpretation of single heterozygous genetic variants. This article discusses those challenges in the context of neonatal and infantile cholestasis, focusing on difficulties in predicting variant pathogenicity, the possibility of other causal variants not identified by the genetic screen used, and phenotypic variability among patients with variants in the same genes. A prospective, observational study performed between 2010ā2013, which sequenced six important genes (ATP8B1, ABCB11, ABCB4, NPC1, NPC2 and SLC25A13) in an international cohort of 222 patients with infantile liver disease, is given as an example of potential benefits and challenges that clinicians could face having received a complex genetic result. Further studies including large cohorts of patients with paediatric liver disease are needed to clarify the spectrum of phenotypes associated with, as well as appropriate clinical response to, single heterozygous variants in cholestasis-associated genes
The genetics of inherited cholestatic disorders in neonates and infants : evolving challenges
Many inherited conditions cause cholestasis in the neonate or infant. Next-generation
sequencing methods can facilitate a prompt diagnosis in some of these cases; application of these
methods in patients with liver diseases of unknown cause has also uncovered novel gene-disease
associations and improved our understanding of physiological bile secretion and flow. By helping to
define the molecular basis of certain cholestatic disorders, these methods have also identified new
targets for therapy as well patient subgroups more likely to benefit from specific therapies. At the
same time, sequencing methods have presented new diagnostic challenges, such as the interpretation
of single heterozygous genetic variants. This article discusses those challenges in the context of
neonatal and infantile cholestasis, focusing on difficulties in predicting variant pathogenicity, the
possibility of other causal variants not identified by the genetic screen used, and phenotypic variability
among patients with variants in the same genes. A prospective, observational study performed
between 2010ā2013, which sequenced six important genes (ATP8B1, ABCB11, ABCB4, NPC1, NPC2
and SLC25A13) in an international cohort of 222 patients with infantile liver disease, is given as an
example of potential benefits and challenges that clinicians could face having received a complex
genetic result. Further studies including large cohorts of patients with paediatric liver disease are
needed to clarify the spectrum of phenotypes associated with, as well as appropriate clinical response
to, single heterozygous variants in cholestasis-associated genes.Actelion Pharmaceuticals Ltd.; the MRC Biomedical Catalyst Award; the German Federal Ministry for Education and Research (BMBF) via the Hereditary Intrahepatic Cholestasis Translational Network; NIHR Academic Clinical Fellowship.https://www.mdpi.com/journal/genesam2022Paediatrics and Child Healt
'Sending Dollars Shows Feeling' - Emotions and Economies in Filipino Migration
This paper analyses the conceptualization of gender, relationships, and emotions that underpin ācare chainsā approaches to Filipino labour migration. In a case study of longādistance intimacy and economic transfers in an extended Filipino family, I show how contextualizing migration within local understandings of emotion fractures expectations created by care chains accounts. This case instead reveals agency, diversity, and new forms of global subjectivity emerging through longādistance emotional connections within the translocal field shaped by labour mobility
Interrogating the Function of Metazoan Histones using Engineered Gene Clusters
Histones and their post-translational modifications influence the regulation of many DNA-dependent processes. Although an essential role for histone-modifying enzymes in these processes is well established, defining the specific contribution of individual histone residues remains a challenge because many histone-modifying enzymes have non-histone targets. This challenge is exacerbated by the paucity of suitable approaches to genetically engineer histone genes in metazoans. Here, we describe a facile platform in Drosophila for generating and analyzing any desired histone genotype, and we use it to test the in vivo function of three histone residues. We demonstrate that H4K20 is neither essential for DNA replication nor for completion of development, unlike conclusions drawn from analyses of H4K20 methyltransferases. We also show that H3K36 is required for viability and H3K27 is essential for maintenance of cellular identity during development. These findings highlight the power of engineering histones to interrogate genome structure and function in animals
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