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This review discusses the challenges and opportunities of fMRI connectivity mapping across species and highlights a set of general principles governing the organization of mammalian connectivity networks.
Numerous unicellular eukaryotes host algal endosymbionts or utilize chloroplasts sequestrated from algal prey. They have developed some mechanisms to mitigate photosynthetic oxidative stress which are similar to those employed by algae and plants.
A high-level perspective on the future of live imaging is presented, with a vision to image anything in a biological sample, anywhere and at any time. A particular focus is given to current challenges and strategies to overcome them.
This review highlights the regulation of three major specialized metabolite biosynthesis pathways in plants by light-responsive gene expression, microRNA regulation, and posttranslational modification of regulatory proteins.
This review discusses the intricate interactions between rhizobacterial consortia-based inoculants, cropping systems, and soil abiotic stresses, focusing specifically on drought and phosphorous deficiency.
This review discusses the biology of non-attached biofilm aggregates, including the mechanisms by which they are formed and available in vitro models for studying their features.
This review highlights the importance of comprehending plant-pathogen interactions at the single-cell and spatial levels, while also providing an overview of relevant cutting-edge technologies.
Recent advances in paleoneurology are collated together in this comprehensive review, linking neuroanatomy to genes and behavior. We provide guidance to the next generation of researchers to move the field forward.
Neurofibrominās signaling pathways, post-translational modifications and key residues are explored to better understand its function and potential therapeutic targets.
The role of mesenchymal stem cells (MSC) in axial spondyloarthritis is reviewed, with a focus on the potential therapeutic strategies employing both MSC and MSC extracellular vesicles.
This review highlights the biomechanical, biophysical, and biochemical modulators of cytoskeletal remodeling during tissue neogenesis in early development and postnatal healing for targeted tissue regeneration and regenerative medicine applications.