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astrogenetics --- the genetic correlation between birth date and individual personality --- biochemistry --- genetics --- anthropology --- astrology and science

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Nématode des plantes --- plant nematodes --- Relation hôte parasite --- Host parasite relations --- Réponse de la plante --- Plant response --- Corrélation génétique --- Genetic correlation --- Sciences and engineering --- biological sciences --- biology --- genetics --- agriculture --- plant pathology --- 632.651 --- 577.15 --- 577.15 Enzymes. Catalysts of biological reactions. Enzymology --- Enzymes. Catalysts of biological reactions. Enzymology --- Helminths. Nematodes --- Theses --- 576.314 --- Cell membrane --- 576.314 Cell membrane --- genetics. --- plant pathology. --- Biological sciences --- Agriculture --- Plant pathology. --- Biology --- Genetics.

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Wood surface attributes can be established by examining its several different physical or chemical properties. Differences in the wood surfaces occur between the manufacturing and post-treatment processes as well. Understanding how their unique anisotropic molecular organization, chemical linkages, branching, and other molecular features govern micro- and macroscale accessibility is essential for coating and complex modification processes. It is therefore important for scientific as well as practical reasons to qualify and quantify the effects of wood surface treatments and modifications. Challenges still exist to fully understanding the effect of the numerous applied chemicals and the wide range of treatment processes on wood surfaces.

Research & information: general --- Technology: general issues --- broiler --- thermal manipulation --- antioxidant --- heat stress --- cold stress --- Bovine Viral Diarrhea Virus --- RNA-Seq --- Transcriptome analysis --- Holstein cattle --- sheep --- intersex --- whole-genome resequencing --- copy number variation --- forming mechanism --- dairy cattle diseases --- innate immune system --- metabolic stress --- microbiome --- mastitis --- bovine mammary epithelial cells --- inflammatory cytokines --- NF-κB signaling --- PRRs --- TLRs --- Piemontese breed --- arthrogryposis --- macroglossia --- genetic model --- TLR3 --- TLR4 --- TLR7 --- foals --- immunostimulation --- gene expression --- bovine mastitis --- JAK-STAT pathway --- JAK2 --- STATs --- SOCS3 --- immunity --- milk production --- DNA methylation --- high-fat diet --- rabbits --- next generation sequencing --- transcriptomics --- bioinformatics --- genome editing --- disease resistance --- livestock --- dairy cattle --- teat-end hyperkeratosis --- udder health --- somatic cell --- genetic correlation --- selection response --- Holstein Friesian cattle --- mastitis resistance --- candidate genes --- SNP selection --- next-generation sequencing

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The book highlights important aspects of Molecular Psychiatry, including molecular mechanisms, animal models, biomarkers, advanced methods, drugs and antidepressant response, as well as genetics and epigenetics. Molecular mechanisms are a vital part of the search for the biological basis of psychiatric disorders, providing molecular hints that can later be tested as biomarkers or targets for drug development. Animal models represent a commonly used approach to aid in this bench-to-bed translation; the examples here are social defeat stress and the Roman High-Avoidance (RHA) and the Roman Low-Avoidance (RLA) rats. For biomarkers, psychiatric disorders pose a particular challenge due to the tissue specificity of many currently investigated biomarkers; i.e., not all blood-based measures directly represent changes in the brain. The Ebook includes five articles focused on the challenges of identifying clinically and biologically relevant biomarkers for psychiatric disorders. Scientific progress typically is fostered by the development of new methods. The application of machine learning methods for the proper analysis of Big Data and induced pluripotent stem cells are examples outlined in this Ebook. Furthermore, three articles are devoted to the understanding of the mechanisms of actions of existing drugs with the ultimate goal of identifying ways to predict treatment response in patients. Finally, three articles deepen the insight into the genetics and epigenetics of psychiatric disorders.

Medicine --- Mental health services --- cardiovascular disease --- cell adhesion molecules --- immunology --- inflammation --- nervous system --- schizophrenia --- bipolar disorder --- major depressive disorder --- DNA methylation --- response variability --- antipsychotics --- drug design --- multi-target drugs --- polypharmacology --- multi-task learning --- machine learning --- biomarker discovery --- psychiatry --- serotonin --- 5-HT 4 receptor --- 5-HT4R --- depression --- mood disorder --- expression --- Alzheimer's disease --- cognition --- Parkinson's disease --- forced swimming --- Roman rat lines --- stress --- hippocampus --- BDNF --- trkB --- PSA-NCAM --- western blot --- immunohistochemistry --- general cognitive function --- intelligence --- GWAS --- genetic correlation --- childhood-onset schizophrenia (COS) --- induced pluripotent stem cell (iPSC) --- copy number variation (CNV) --- early neurodevelopment --- neuronal differentiation --- synapse --- dendritic arborization --- miRNAs --- stress physiology --- cytoskeleton --- actin dynamics --- DRR1 --- TU3A --- FAM107A --- acid sphingomyelinase --- alcohol dependence --- liver enzymes --- sphingolipid metabolism --- withdrawal --- Hsp90 --- GR --- stress response --- steroid hormones --- molecular chaperones --- psychiatric disease --- circadian rhythms --- FKBP51 --- FKBP52 --- CyP40 --- PP5 --- DISC1 --- neurodevelopment --- CRMP-2 --- proteomics --- antidepressant treatment --- HPA axis --- gene expression --- FKBP5 --- sleep --- sleep EEG --- biomarkers --- antidepressants --- cordance --- gender --- sex difference --- antidepressant --- rapid-acting --- Ketamine --- endocrinology --- (2R,6R)-Hydroxynorketamine --- electroconvulsive therapy --- basic-helix-loop-helix --- brain --- coactivator --- glucocorticoids --- mineralocorticoid receptor knockout --- transcription biology --- dopaminergic gene polymorphisms --- affective temperament --- obesity --- alpha-synuclein --- SNCA --- major depression --- Hamilton Scale of Depression --- chemokines --- neuroinflammation --- social defeat --- Immune response --- T cells --- susceptibility --- resilience --- Treg cells --- Th17 cells --- behavior --- PPARγ