Your search keyword '"Andrew J. Wood"' showing total 17 results

1. Degron tagging for rapid protein degradation in mice

Author

Brianda A. Hernández-Morán, Gillian Taylor, Álvaro Lorente-Macías, and Andrew J. Wood

Subjects

protein degradation, target validation, mouse models, Medicine, Pathology, RB1-214

Published

2024

2. Editorial: Desiccation tolerance in land plants: from mechanisms to evolution

Author

Xiaoshuang Li, Bei Gao, Andrew J. Wood, Julia Buitink, Daoyuan Zhang, and Melvin J. Oliver

Subjects

desiccation tolerance, editorial, special topic, resurrection plants, evolution, Plant culture, SB1-1110

Published

2023

3. A commercial antibody to the human condensin II subunit NCAPH2 cross-reacts with a SWI/SNF complex component [version 1; peer review: 2 approved]

Author

Erin E. Cutts, Gillian C. Taylor, Mercedes Pardo, Lu Yu, Jimi C. Wills, Jyoti S. Choudhary, Alessandro Vannini, and Andrew J. Wood

Subjects

Medicine, Science

Abstract

Condensin complexes compact and disentangle chromosomes in preparation for cell division. Commercially available antibodies raised against condensin subunits have been widely used to characterise their cellular interactome. Here we have assessed the specificity of a polyclonal antibody (Bethyl A302-276A) that is commonly used as a probe for NCAPH2, the kleisin subunit of condensin II, in mammalian cells. We find that, in addition to its intended target, this antibody cross-reacts with one or more components of the SWI/SNF family of chromatin remodelling complexes in an NCAPH2-independent manner. This cross-reactivity, with an abundant chromatin-associated factor, is likely to affect the interpretation of protein and chromatin immunoprecipitation experiments that make use of this antibody probe.

Published

2021

4. Evolution by duplication: paleopolyploidy events in plants reconstructed by deciphering the evolutionary history of VOZ transcription factors

Author

Bei Gao, Moxian Chen, Xiaoshuang Li, Yuqing Liang, Fuyuan Zhu, Tieyuan Liu, Daoyuan Zhang, Andrew J. Wood, Melvin J. Oliver, and Jianhua Zhang

Subjects

Polyploidy, Whole genome duplication, Transcription, Plant evolution, Gamma, Botany, QK1-989

Abstract

Abstract Background Facilitated by the rapid progress of sequencing technology, comparative genomic studies in plants have unveiled recurrent whole genome duplication (i.e. polyploidization) events throughout plant evolution. The evolutionary past of plant genes should be analyzed in a background of recurrent polyploidy events in distinctive plant lineages. The Vascular Plant One Zinc-finger (VOZ) gene family encode transcription factors associated with a number of important traits including control of flowering time and photoperiodic pathways, but the evolutionary trajectory of this gene family remains uncharacterized. Results In this study, we deciphered the evolutionary history of the VOZ gene family by analyses of 107 VOZ genes in 46 plant genomes using integrated methods: phylogenic reconstruction, Ks-based age estimation and genomic synteny comparisons. By scrutinizing the VOZ gene family phylogeny the core eudicot γ event was well circumscribed, and relics of the precommelinid τ duplication event were detected by incorporating genes from oil palm and banana. The more recent T and ρ polyploidy events, closely coincident with the species diversification in Solanaceae and Poaceae, respectively, were also identified. Other important polyploidy events captured included the “salicoid” event in poplar and willow, the “early legume” and “soybean specific” events in soybean, as well as the recent polyploidy event in Physcomitrella patens. Although a small transcription factor gene family, the evolutionary history of VOZ genes provided an outstanding record of polyploidy events in plants. The evolutionary past of VOZ gene family demonstrated a close correlation with critical plant polyploidy events which generated species diversification and provided answer to Darwin’s “abominable mystery”. Conclusions We deciphered the evolutionary history of VOZ transcription factor family in plants and ancestral polyploidy events in plants were recapitulated simultaneously. This analysis allowed for the generation of an idealized plant gene tree demonstrating distinctive retention and fractionation patterns following polyploidy events.

Published

2018

5. Desiccation tolerance in bryophytes: The dehydration and rehydration transcriptomes in the desiccation-tolerant bryophyte Bryum argenteum

Author

Bei Gao, Xiaoshuang Li, Daoyuan Zhang, Yuqing Liang, Honglan Yang, Moxian Chen, Yuanming Zhang, Jianhua Zhang, and Andrew J. Wood

Subjects

Medicine, Science

Abstract

Abstract The desiccation tolerant bryophyte Bryum argenteum is an important component of desert biological soil crusts (BSCs) and is emerging as a model system for studying vegetative desiccation tolerance. Here we present and analyze the hydration-dehydration-rehydration transcriptomes in B. argenteum to establish a desiccation-tolerance transcriptomic atlas. B. argenteum gametophores representing five different hydration stages (hydrated (H0), dehydrated for 2 h (D2), 24 h (D24), then rehydrated for 2 h (R2) and 48 h (R48)), were sampled for transcriptome analyses. Illumina high throughput RNA-Seq technology was employed and generated more than 488.46 million reads. An in-house de novo transcriptome assembly optimization pipeline based on Trinity assembler was developed to obtain a reference Hydration-Dehydration-Rehydration (H-D-R) transcriptome comprising of 76,206 transcripts, with an N50 of 2,016 bp and average length of 1,222 bp. Comprehensive transcription factor (TF) annotation discovered 978 TFs in 62 families, among which 404 TFs within 40 families were differentially expressed upon dehydration-rehydration. Pfam term enrichment analysis revealed 172 protein families/domains were significantly associated with the H-D-R cycle and confirmed early rehydration (i.e. the R2 stage) as exhibiting the maximum stress-induced changes in gene expression.

Published

2017

6. ScDREB10, an A-5c type of DREB Gene of the Desert Moss Syntrichia caninervis, Confers Osmotic and Salt Tolerances to Arabidopsis

Author

Xiaoshuang Li, Yuqing Liang, Bei Gao, Meiheriguli Mijiti, Tohir A. Bozorov, Honglan Yang, Daoyuan Zhang, and Andrew J. Wood

Subjects

Syntrichia caninervis, DREB transcription factor, drought stress, salt stress, ROS-scavenging ability, Genetics, QH426-470

Abstract

Drought and salinity are major factors limiting crop productivity worldwide. DREB (dehydration-responsive element-binding) transcription factors play important roles in plant stress response and have been identified in a wide variety of plants. Studies on DREB are focused on the A-1 (DREB1) and A-2 (DREB2) groups. Studies on A-5 group DREBs, which represent a large proportion of the DREB subfamily, is limited. In this study, we characterized and analyzed the stress tolerance function of ScDREB10, an A-5c type DREB gene from the desert moss Syntrichia caninervis. Transactivation assay in yeast showed that ScDREB10 had transactivation activity. Transient expression assay revealed that ScDREB10 was distributed both in the nucleus and cytosol of tobacco leaf epidermal cells. Overexpression of ScDREB10 significantly increased the germination percentage of Arabidopsis seeds under osmotic and salt stresses, and improved the osmotic and salt stress tolerances of Arabidopsis at the seedling stage and is associated with the expression of downstream stress-related genes and improved reactive oxygen species (ROS) scavenging ability. Our study provides insight into the molecular mechanism of stress tolerance of A-5 type DREB proteins, as well as providing a promising candidate gene for crop salt and drought stress breeding.

Published

2019

7. Identification, Classification, and Functional Analysis of AP2/ERF Family Genes in the Desert Moss Bryum argenteum

Author

Xiaoshuang Li, Bei Gao, Daoyuan Zhang, Yuqing Liang, Xiaojie Liu, Jinyi Zhao, Jianhua Zhang, and Andrew J. Wood

Subjects

AP2/ERF genes, Bryum argenteum, transcriptome, gene expression, stress tolerance, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Bryum argenteum is a desert moss which shows tolerance to the desert environment and is emerging as a good plant material for identification of stress-related genes. AP2/ERF transcription factor family plays important roles in plant responses to biotic and abiotic stresses. AP2/ERF genes have been identified and extensively studied in many plants, while they are rarely studied in moss. In the present study, we identified 83 AP2/ERF genes based on the comprehensive dehydrationrehydration transcriptomic atlas of B. argenteum. BaAP2/ERF genes can be classified into five families, including 11 AP2s, 43 DREBs, 26 ERFs, 1 RAV, and 2 Soloists. RNA-seq data showed that 83 BaAP2/ERFs exhibited elevated transcript abundances during dehydration⁻rehydration process. We used RT-qPCR to validate the expression profiles of 12 representative BaAP2/ERFs and confirmed the expression trends using RNA-seq data. Eight out of 12 BaAP2/ERFs demonstrated transactivation activities. Seven BaAP2/ERFs enhanced salt and osmotic stress tolerances of yeast. This is the first study to provide detailed information on the identification, classification, and functional analysis of the AP2/ERFs in B. argenteum. This study will lay the foundation for the further functional analysis of these genes in plants, as well as provide greater insights into the molecular mechanisms of abiotic stress tolerance of B. argenteum.

Published

2018

8. Reference Gene Selection in the Desert Plant Eremosparton songoricum

Author

Dao-Yuan Zhang, Yuan-Ming Zhang, Andrew J. Wood, Xiao-Shuang Li, and Hong-Lan Yang

Subjects

Eremosparton songoricum, quantitative real-time PCR, reference genes, geNorm, validation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Eremosparton songoricum (Litv.) Vass. (E. songoricum) is a rare and extremely drought-tolerant desert plant that holds promise as a model organism for the identification of genes associated with water deficit stress. Here, we cloned and evaluated the expression of eight candidate reference genes using quantitative real-time reverse transcriptase polymerase chain reactions. The expression of these candidate reference genes was analyzed in a diverse set of 20 samples including various E. songoricum plant tissues exposed to multiple environmental stresses. GeNorm analysis indicated that expression stability varied between the reference genes in the different experimental conditions, but the two most stable reference genes were sufficient for normalization in most conditions. EsEF and Esα-TUB were sufficient for various stress conditions, EsEF and EsACT were suitable for samples of differing germination stages, and EsGAPDHand EsUBQ were most stable across multiple adult tissue samples. The Es18S gene was unsuitable as a reference gene in our analysis. In addition, the expression level of the drought-stress related transcription factor EsDREB2 verified the utility of E. songoricum reference genes and indicated that no single gene was adequate for normalization on its own. This is the first systematic report on the selection of reference genes in E. songoricum, and these data will facilitate future work on gene expression in this species.

Published

2012

9. Plant Receptor-Like Serine Threonine Kinases: Roles in Signaling and Plant Defense

Author

Ahmed J. Afzal, Andrew J. Wood, and David A. Lightfoot

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

Plants are hosts to a wide array of pathogens from all kingdoms of life. In the absence of an active immune system or combinatorial diversifications that lead to recombination-driven somatic gene flexibility, plants have evolved different strategies to combat both individual pathogen strains and changing pathogen populations. The receptor-like kinase (RLK) gene-family expansion in plants was hypothesized to have allowed accelerated evolution among domains implicated in signal reception, typically a leucine-rich repeat (LRR). Under that model, the gene-family expansion represents a plant-specific adaptation that leads to the production of numerous and variable cell surface and cytoplasmic receptors. More recently, it has emerged that the LRR domains of RLK interact with a diverse group of proteins leading to combinatorial variations in signal response specificity. Therefore, the RLK appear to play a central role in signaling during pathogen recognition, the subsequent activation of plant defense mechanisms, and developmental control. The future challenges will include determinations of RLK modes of action, the basis of recognition and specificity, which cellular responses each receptor mediates, and how both receptor and kinase domain interactions fit into the defense signaling cascades. These challenges will be complicated by the limited information that may be derived from the primary sequence of the LRR domain. The review focuses upon implications derived from recent studies of the secondary and tertiary structures of several plant RLK that change understanding of plant receptor function and signaling. In addition, the biological functions of plant and animal RLK-containing receptors were reviewed and commonalities among their signaling mechanisms identified. Further elucidated were the genomic and structural organizations of RLK gene families, with special emphasis on RLK implicated in resistance to disease and development.

Published

2008

10. Ubiquitous spin freezing in the superconducting state of UTe2

Author

Shyam Sundar, Nasrin Azari, Mariah R. Goeks, Shayan Gheidi, Mae Abedi, Michael Yakovlev, Sarah R. Dunsiger, John M. Wilkinson, Stephen J. Blundell, Tristin E. Metz, Ian M. Hayes, Shanta R. Saha, Sangyun Lee, Andrew J. Woods, Roman Movshovich, Sean M. Thomas, Nicholas P. Butch, Priscila F. S. Rosa, Johnpierre Paglione, and Jeff E. Sonier

Subjects

Astrophysics, QB460-466, Physics, QC1-999

Abstract

UTe2 receives significant attention as it may be an example of a spin-triplet superconductor but many features of this material are still to be fully understood. Here, the authors use muon spin rotation to investigate the existence of low-temperature magnetic clusters in single crystals of UTe2 and discuss the potential relationship with the temperature dependent behaviour of the specific heat.

Published

2023

11. Correlates of physical activity and sedentary behaviour in children attending before and after school care: a systematic review

Author

Andrew J. Woods, Yasmine C. Probst, Jennifer Norman, Karen Wardle, Sarah T. Ryan, Linda Patel, Ruth K. Crowe, and Anthony D. Okely

Subjects

Out of school hours care, After school program, Before school care, Physical activity, Sedentary behaviour, Review, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Out of School Hours Care (OSHC) offers structured care to elementary/primary-aged children before and after school, and during school holidays. The promotion of physical activity in OSHC is important for childhood obesity prevention. The aim of this systematic review was to identify correlates of objectively measured physical activity and sedentary behaviour in before and after school care. Methods A systematic search was conducted in Scopus, ERIC, MEDLINE (EBSCO), PsycINFO and Web of Science databases up to December 2021. Study inclusion criteria were: written in English; from a peer-reviewed journal; data from a centre-based before and/or after school care service; children with a mean age

Published

2022

12. Rapid and specific degradation of endogenous proteins in mouse models using auxin-inducible degrons

Author

Lewis Macdonald, Gillian C Taylor, Jennifer Margaret Brisbane, Ersi Christodoulou, Lucy Scott, Alex von Kriegsheim, Janet Rossant, Bin Gu, and Andrew J Wood

Subjects

degron, genetic tools, condensin, Medicine, Science, Biology (General), QH301-705.5

Abstract

Auxin-inducible degrons are a chemical genetic tool for targeted protein degradation and are widely used to study protein function in cultured mammalian cells. Here, we develop CRISPR-engineered mouse lines that enable rapid and highly specific degradation of tagged endogenous proteins in vivo. Most but not all cell types are competent for degradation. By combining ligand titrations with genetic crosses to generate animals with different allelic combinations, we show that degradation kinetics depend upon the dose of the tagged protein, ligand, and the E3 ligase substrate receptor TIR1. Rapid degradation of condensin I and II – two essential regulators of mitotic chromosome structure – revealed that both complexes are individually required for cell division in precursor lymphocytes, but not in their differentiated peripheral lymphocyte derivatives. This generalisable approach provides unprecedented temporal control over the dose of endogenous proteins in mouse models, with implications for studying essential biological pathways and modelling drug activity in mammalian tissues.

Published

2022

13. Review of 'The Composition of Movements to Come: Aesthetics and Cultural Labor After the Avant-Garde' by Stevphen Shukaitis (Rowman : Littlefield International)

Author

Andrew J Wood

Subjects

aesthetics, avant garde, fascism, labor, work refusal, Ethnology. Social and cultural anthropology, GN301-674

Abstract

Stevphen Shukaitis has produced an interesting text by situating a strategic conversation between artistic avant-gardes and autonomist political movements. He begins with a plea for rethinking strategy, and not just questions of tactics, in seeking radical aesthetic and socio-political change.

Published

2019

14. Heterochromatin delays CRISPR-Cas9 mutagenesis but does not influence the outcome of mutagenic DNA repair.

Author

Eirini M Kallimasioti-Pazi, Keerthi Thelakkad Chathoth, Gillian C Taylor, Alison Meynert, Tracy Ballinger, Martijn J E Kelder, Sébastien Lalevée, Ildem Sanli, Robert Feil, and Andrew J Wood

Subjects

Biology (General), QH301-705.5

Abstract

Genome editing occurs in the context of chromatin, which is heterogeneous in structure and function across the genome. Chromatin heterogeneity is thought to affect genome editing efficiency, but this has been challenging to quantify due to the presence of confounding variables. Here, we develop a method that exploits the allele-specific chromatin status of imprinted genes in order to address this problem in cycling mouse embryonic stem cells (mESCs). Because maternal and paternal alleles of imprinted genes have identical DNA sequence and are situated in the same nucleus, allele-specific differences in the frequency and spectrum of mutations induced by CRISPR-Cas9 can be unequivocally attributed to epigenetic mechanisms. We found that heterochromatin can impede mutagenesis, but to a degree that depends on other key experimental parameters. Mutagenesis was impeded by up to 7-fold when Cas9 exposure was brief and when intracellular Cas9 expression was low. In contrast, the outcome of mutagenic DNA repair was unaffected by chromatin state, with similar efficiencies of homology-directed repair (HDR) and deletion spectra on maternal and paternal chromosomes. Combined, our data show that heterochromatin imposes a permeable barrier that influences the kinetics, but not the endpoint, of CRISPR-Cas9 genome editing and suggest that therapeutic applications involving low-level Cas9 exposure will be particularly affected by chromatin status.

Published

2018

15. Psip1/p52 regulates posterior Hoxa genes through activation of lncRNA Hottip.

Author

Madapura M Pradeepa, Fionnuala McKenna, Gillian C A Taylor, Hemant Bengani, Graeme R Grimes, Andrew J Wood, Shipra Bhatia, and Wendy A Bickmore

Subjects

Genetics, QH426-470

Abstract

Long noncoding RNAs (lncRNAs) have been implicated in various biological functions including the regulation of gene expression, however, the functionality of lncRNAs is not clearly understood and conflicting conclusions have often been reached when comparing different methods to investigate them. Moreover, little is known about the upstream regulation of lncRNAs. Here we show that the short isoform (p52) of a transcriptional co-activator-PC4 and SF2 interacting protein (Psip1), which is known to be involved in linking transcription to RNA processing, specifically regulates the expression of the lncRNA Hottip-located at the 5' end of the Hoxa locus. Using both knockdown and knockout approaches we show that Hottip expression is required for activation of the 5' Hoxa genes (Hoxa13 and Hoxa10/11) and for retaining Mll1 at the 5' end of Hoxa. Moreover, we demonstrate that artificially inducing Hottip expression is sufficient to activate the 5' Hoxa genes and that Hottip RNA binds to the 5' end of Hoxa. By engineering premature transcription termination, we show that it is the Hottip lncRNA molecule itself, not just Hottip transcription that is required to maintains active expression of posterior Hox genes. Our data show a direct role for a lncRNA molecule in regulating the expression of developmentally-regulated mRNA genes in cis.

Published

2017

16. A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.

Author

Andrew J Wood, Roland G Roberts, David Monk, Gudrun E Moore, Reiner Schulz, and Rebecca J Oakey

Subjects

Genetics, QH426-470

Abstract

Imprinted genes undergo epigenetic modifications during gametogenesis, which lead to transcriptional silencing of either the maternally or the paternally derived allele in the subsequent generation. Previous work has suggested an association between imprinting and the products of retrotransposition, but the nature of this link is not well defined. In the mouse, three imprinted genes have been described that originated by retrotransposition and overlap CpG islands which undergo methylation during oogenesis. Nap1l5, U2af1-rs1, and Inpp5f_v2 are likely to encode proteins and share two additional genetic properties: they are located within introns of host transcripts and are derived from parental genes on the X chromosome. Using these sequence features alone, we identified Mcts2, a novel candidate imprinted retrogene on mouse Chromosome 2. Mcts2 has been validated as imprinted by demonstrating that it is paternally expressed and undergoes promoter methylation during oogenesis. The orthologous human retrogenes NAP1L5, INPP5F_V2, and MCTS2 are also shown to be paternally expressed, thus delineating novel imprinted loci on human Chromosomes 4, 10, and 20. The striking correlation between imprinting and X chromosome provenance suggests that retrotransposed elements with homology to the X chromosome can be selectively targeted for methylation during mammalian oogenesis.

Published

2007

17. Genomic imprinting in mammals: emerging themes and established theories.

Author

Andrew J Wood and Rebecca J Oakey

Subjects

Genetics, QH426-470

Abstract

The epigenetic events that occur during the development of the mammalian embryo are essential for correct gene expression and cell-lineage determination. Imprinted genes are expressed from only one parental allele due to differential epigenetic marks that are established during gametogenesis. Several theories have been proposed to explain the role that genomic imprinting has played over the course of mammalian evolution, but at present it is not clear if a single hypothesis can fully account for the diversity of roles that imprinted genes play. In this review, we discuss efforts to define the extent of imprinting in the mouse genome, and suggest that different imprinted loci may have been wrought by distinct evolutionary forces. We focus on a group of small imprinted domains, which consist of paternally expressed genes embedded within introns of multiexonic transcripts, to discuss the evolution of imprinting at these loci.

Published

2006