TY  - JOUR
A1  - Leimkühler, Silke
A1  - Iobbi-Nivol, Chantal
T1  - Bacterial molybdoenzymes: old enzymes for new purposes
JF  - FEMS microbiology reviews
N2  - Molybdoenzymes are widespread in eukaryotic and prokaryotic organisms where they play crucial functions in detoxification reactions in the metabolism of humans and bacteria, in nitrate assimilation in plants and in anaerobic respiration in bacteria. To be fully active, these enzymes require complex molybdenum-containing cofactors, which are inserted into the apoenzymes after folding. For almost all the bacterial molybdoenzymes, molybdenum cofactor insertion requires the involvement of specific chaperones. In this review, an overview on the molybdenum cofactor biosynthetic pathway is given together with the role of specific chaperones dedicated for molybdenum cofactor insertion and maturation. Many bacteria are involved in geochemical cycles on earth and therefore have an environmental impact. The roles of molybdoenzymes in bioremediation and for environmental applications are presented.This review gives an overview of the diverse mechanisms leading to the insertion of the different forms of the molybdenum cofactor into the respective target enzymes and summarizes the roles of different molybdoenzymes in the environment.This review gives an overview of the diverse mechanisms leading to the insertion of the different forms of the molybdenum cofactor into the respective target enzymes and summarizes the roles of different molybdoenzymes in the environment.
KW  - molybdenum cofactor
KW  - specific chaperons
KW  - TorD family
KW  - XdhC
KW  - molybdoenzyme maturation
KW  - bioremediation
Y1  - 2016
U6  - https://doi.org/10.1093/femsre/fuv043
SN  - 0168-6445
SN  - 1574-6976
VL  - 40
SP  - 1
EP  - 18
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Sperfeld, Erik
A1  - Raubenheimer, David
A1  - Wacker, Alexander
T1  - Bridging factorial and gradient concepts of resource co-limitation:
towards a general framework applied to consumers
JF  - Ecology letters
N2  - Organism growth can be limited either by a single resource or by multiple resources simultaneously (co-limitation). Efforts to characterise co-limitation have generated two influential approaches. One approach uses limitation scenarios of factorial growth assays to distinguish specific types of co-limitation; the other uses growth responses spanned over a continuous, multi-dimensional resource space to characterise different types of response surfaces. Both approaches have been useful in investigating particular aspects of co-limitation, but a synthesis is needed to stimulate development of this recent research area. We address this gap by integrating the two approaches, thereby presenting a more general framework of co-limitation. We found that various factorial (co-)limitation scenarios can emerge in different response surface types based on continuous availabilities of essential or substitutable resources. We tested our conceptual co-limitation framework on data sets of published and unpublished studies examining the limitation of two herbivorous consumers in a two-dimensional resource space. The experimental data corroborate the predictions, suggesting a general applicability of our co-limitation framework to generalist consumers and potentially also to other organisms. The presented framework might give insight into mechanisms that underlie co-limitation responses and thus can be a seminal starting point for evaluating co-limitation patterns in experiments and nature.
KW  - Consumer
KW  - essential nutrient
KW  - factorial design
KW  - food quality
KW  - growth rate
KW  - multi-nutrient limitation
KW  - nutritional ecology
KW  - performance landscape
KW  - substitutable resource
KW  - synergistic effect
Y1  - 2016
U6  - https://doi.org/10.1111/ele.12554
SN  - 1461-023X
SN  - 1461-0248
VL  - 19
SP  - 201
EP  - 215
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Haack, Timm
A1  - Abdelilah-Seyfried, Salim
T1  - The force within: endocardial development, mechanotransduction and signalling during cardiac morphogenesis
JF  - Development : Company of Biologists
N2  - Endocardial cells are cardiac endothelial cells that line the interior of the heart tube. Historically, their contribution to cardiac development has mainly been considered from a morphological perspective. However, recent studies have begun to define novel instructive roles of the endocardium, as a sensor and signal transducer of biophysical forces induced by blood flow, and as an angiocrine signalling centre that is involved in myocardial cellular morphogenesis, regeneration and reprogramming. In this Review, we discuss how the endocardium develops, how endocardial-myocardial interactions influence the developing embryonic heart, and how the dysregulation of blood flowresponsive endocardial signalling can result in pathophysiological changes.
KW  - Endocardium
KW  - Cardiac development
KW  - Hemodynamics
KW  - Bmp
KW  - Kruppel-like factor 2
KW  - Vegf
KW  - Mechanotransduction
KW  - Zebrafish
KW  - Mouse
Y1  - 2016
U6  - https://doi.org/10.1242/dev.131425
SN  - 0950-1991
SN  - 1477-9129
VL  - 143
SP  - 373
EP  - 386
PB  - Company of Biologists Limited
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Yan, Wenhao
A1  - Chen, Dijun
A1  - Kaufmann, Kerstin
T1  - Molecular mechanisms of floral organ specification by MADS domain proteins
JF  - Current opinion in plant biology
N2  - Flower development is a model system to understand organ specification in plants. The identities of different types of floral organs are specified by homeotic MADS transcription factors that interact in a combinatorial fashion. Systematic identification of DNA-binding sites and target genes of these key regulators show that they have shared and unique sets of target genes. DNA binding by MADS proteins is not based on ‘simple’ recognition of a specific DNA sequence, but depends on DNA structure and combinatorial interactions. Homeotic MADS proteins regulate gene expression via alternative mechanisms, one of which may be to modulate chromatin structure and accessibility in their target gene promoters.
Y1  - 2016
U6  - https://doi.org/10.1016/j.pbi.2015.12.004
SN  - 1369-5266
SN  - 1879-0356
VL  - 29
SP  - 154
EP  - 162
PB  - Elsevier
CY  - London
ER  - 
TY  - JOUR
A1  - de Vinuesa, Amaya Garcia
A1  - Abdelilah-Seyfried, Salim
A1  - Knaus, Petra
A1  - Zwijsen, An
A1  - Bailly, Sabine
T1  - BMP signaling in vascular biology and dysfunction
JF  - New journal of physics : the open-access journal for physics
N2  - The vascular system is critical for developmental growth, tissue homeostasis and repair but also for tumor development. Bone morphogenetic protein (BMP) signaling has recently emerged as a fundamental pathway of the endothelium by regulating cardiovascular and lymphatic development and by being causative for several vascular dysfunctions. Two vascular disorders have been directly linked to impaired BMP signaling: pulmonary arterial hypertension and hereditary hemorrhagic telangiectasia. Endothelial BMP signaling critically depends on the cellular context, which includes among others vascular heterogeneity, exposure to flow, and the intertwining with other signaling cascades (Notch, WNT, Hippo and hypoxia). The purpose of this review is to highlight the most recent findings illustrating the clear need for reconsidering the role of BMPs in vascular biology. (C) 2015 Elsevier Ltd. All rights reserved.
KW  - Bone morphogenetic proteins (BMP)
KW  - Signaling
KW  - Vasculature
KW  - Development
KW  - Disease
Y1  - 2016
U6  - https://doi.org/10.1016/j.cytogfr.2015.12.005
SN  - 1359-6101
SN  - 1879-0305
VL  - 27
SP  - 65
EP  - 79
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Woodhouse, Jason Nicholas
A1  - Makower, A. Katharina
A1  - Yeung, Anna C. Y.
A1  - Ongley, Sarah E.
A1  - Micallef, Melinda L.
A1  - Moffitt, Michelle C.
A1  - Neilan, Brett A.
T1  - Advances in genomics, transcriptomics and proteomics of toxin-producing cyanobacteria
JF  - Environmental microbiology reports
N2  - A common misconception persists that the genomes of toxic and non-toxic cyanobacterial strains are largely conserved with the exception of the presence or absence of the genes responsible for toxin production. Implementation of -omics era technologies has challenged this paradigm, with comparative analyses providing increased insight into the differences between strains of the same species. The implementation of genomic, transcriptomic and proteomic approaches has revealed distinct profiles between toxin-producing and non-toxic strains. Further, metagenomics and metaproteomics highlight the genomic potential and functional state of toxic bloom events over time. In this review, we highlight how these technologies have shaped our understanding of the complex relationship between these molecules, their producers and the environment at large within which they persist.
Y1  - 2016
U6  - https://doi.org/10.1111/1758-2229.12366
SN  - 1758-2229
VL  - 8
SP  - 3
EP  - 13
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Terao, Mineko
A1  - Romao, Maria Joao
A1  - Leimkühler, Silke
A1  - Bolis, Marco
A1  - Fratelli, Maddalena
A1  - Coelho, Catarina
A1  - Santos-Silva, Teresa
A1  - Garattini, Enrico
T1  - Structure and function of mammalian aldehyde oxidases
JF  - Archives of toxicology : official journal of EUROTOX
N2  - Mammalian aldehyde oxidases (AOXs; EC1.2.3.1) are a group of conserved proteins belonging to the family of molybdo-flavoenzymes along with the structurally related xanthine dehydrogenase enzyme. AOXs are characterized by broad substrate specificity, oxidizing not only aromatic and aliphatic aldehydes into the corresponding carboxylic acids, but also hydroxylating a series of heteroaromatic rings. The number of AOX isoenzymes expressed in different vertebrate species is variable. The two extremes are represented by humans, which express a single enzyme (AOX1) in many organs and mice or rats which are characterized by tissue-specific expression of four isoforms (AOX1, AOX2, AOX3, and AOX4). In vertebrates each AOX isoenzyme is the product of a distinct gene consisting of 35 highly conserved exons. The extant species-specific complement of AOX isoenzymes is the result of a complex evolutionary process consisting of a first phase characterized by a series of asynchronous gene duplications and a second phase where the pseudogenization and gene deletion events prevail. In the last few years remarkable advances in the elucidation of the structural characteristics and the catalytic mechanisms of mammalian AOXs have been made thanks to the successful crystallization of human AOX1 and mouse AOX3. Much less is known about the physiological function and physiological substrates of human AOX1 and other mammalian AOX isoenzymes, although the importance of these proteins in xenobiotic metabolism is fairly well established and their relevance in drug development is increasing. This review article provides an overview and a discussion of the current knowledge on mammalian AOX.
KW  - Aldehyde oxidase
KW  - Molybdo-flavoenzymes
KW  - Xanthine oxidoreductase
KW  - Drug metabolism
Y1  - 2016
U6  - https://doi.org/10.1007/s00204-016-1683-1
SN  - 0340-5761
SN  - 1432-0738
VL  - 90
SP  - 753
EP  - 780
PB  - Springer
CY  - Heidelberg
ER  - 
TY  - JOUR
A1  - Nickerson, David
A1  - Atalag, Koray
A1  - de Bono, Bernard
A1  - Geiger, Joerg
A1  - Goble, Carole
A1  - Hollmann, Susanne
A1  - Lonien, Joachim
A1  - Mueller, Wolfgang
A1  - Regierer, Babette
A1  - Stanford, Natalie J.
A1  - Golebiewski, Martin
A1  - Hunter, Peter
T1  - The Human Physiome: how standards, software and innovative service infrastructures are providing the building blocks to make it achievable
JF  - Interface focus
N2  - Reconstructing and understanding the Human Physiome virtually is a complex mathematical problem, and a highly demanding computational challenge. Mathematical models spanning from the molecular level through to whole populations of individuals must be integrated, then personalized. This requires interoperability with multiple disparate and geographically separated data sources, and myriad computational software tools. Extracting and producing knowledge from such sources, even when the databases and software are readily available, is a challenging task. Despite the difficulties, researchers must frequently perform these tasks so that available knowledge can be continually integrated into the common framework required to realize the Human Physiome. Software and infrastructures that support the communities that generate these, together with their underlying standards to format, describe and interlink the corresponding data and computer models, are pivotal to the Human Physiome being realized. They provide the foundations for integrating, exchanging and re-using data and models efficiently, and correctly, while also supporting the dissemination of growing knowledge in these forms. In this paper, we explore the standards, software tooling, repositories and infrastructures that support this work, and detail what makes them vital to realizing the Human Physiome.
KW  - Human Physiome
KW  - standards
KW  - repositories
KW  - service infrastructure
KW  - reproducible science
KW  - managing big data
Y1  - 2016
U6  - https://doi.org/10.1098/rsfs.2015.0103
SN  - 2042-8898
SN  - 2042-8901
VL  - 6
SP  - 57
EP  - 61
PB  - Royal Society
CY  - London
ER  - 
TY  - JOUR
A1  - Rajasundaram, Dhivyaa
A1  - Selbig, Joachim
T1  - analysis
JF  - Current opinion in plant biology
N2  - The development of ‘omics’ technologies has progressed to address complex biological questions that underlie various plant functions thereby producing copious amounts of data. The need to assimilate large amounts of data into biologically meaningful interpretations has necessitated the development of statistical methods to integrate multidimensional information. Throughout this review, we provide examples of recent outcomes of ‘omics’ data integration together with an overview of available statistical methods and tools.
Y1  - 2016
U6  - https://doi.org/10.1016/j.pbi.2015.12.010
SN  - 1369-5266
SN  - 1879-0356
VL  - 30
SP  - 57
EP  - 61
PB  - Elsevier
CY  - London
ER  - 
TY  - JOUR
A1  - Pearson, Leanne A.
A1  - Dittmann, Elke
A1  - Mazmouz, Rabia
A1  - Ongley, Sarah E.
A1  - Neilan, Brett A.
T1  - The genetics, biosynthesis and regulation of toxic specialized metabolites of cyanobacteria
JF  - Harmful algae
N2  - The production of toxic metabolites by cyanobacterial blooms represents a significant threat to the health of humans and ecosystems worldwide. Here we summarize the current state of the knowledge regarding the genetics, biosynthesis and regulation of well-characterized cyanotoxins, including the microcystins, nodularin, cylindrospermopsin, saxitoxins and antitoxins, as well as the lesser-known marine toxins (e.g. lyngbyatoxin, aplysiatoxin, jamaicamides, barbamide, curacin, hectochlorin and apratoxins). (C) 2015 Elsevier B.V. All rights reserved.
KW  - Cyanobacteria
KW  - Cyanotoxins
KW  - Specialized metabolites
KW  - Genetics
KW  - Biosynthesis
KW  - Regulation
Y1  - 2016
U6  - https://doi.org/10.1016/j.hal.2015.11.002
SN  - 1568-9883
SN  - 1878-1470
VL  - 54
SP  - 98
EP  - 111
PB  - Elsevier
CY  - Amsterdam
ER  -