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6 results on '"Butrus S"'

1. Morphological and functional convergence of visual projection neurons from diverse neurogenic origins in Drosophila.

Author

El-Danaf, Rana Naja, Kapuralin, Katarina, Rajesh, Raghuvanshi, Simon, Félix, Drou, Nizar, Pinto-Teixeira, Filipe, Özel, Mehmet Neset, and Desplan, Claude

Abstract

The Drosophila visual system is a powerful model to study the development of neural circuits. Lobula columnar neurons-LCNs are visual output neurons that encode visual features relevant to natural behavior. There are ~20 classes of LCNs forming non-overlapping synaptic optic glomeruli in the brain. To address their origin, we used single-cell mRNA sequencing to define the transcriptome of LCN subtypes and identified lines that are expressed throughout their development. We show that LCNs originate from stem cells in four distinct brain regions exhibiting different modes of neurogenesis, including the ventral and dorsal tips of the outer proliferation center, the ventral superficial inner proliferation center and the central brain. We show that this convergence of similar neurons illustrates the complexity of generating neuronal diversity, and likely reflects the evolutionary origin of each subtype that detects a specific visual feature and might influence behaviors specific to each species.Here the authors identified the developmental origins of Lobula Columnar Neurons in the Drosophila brain, tracing them to four distinct brain regions. The convergence of similar neurons highlights the complexity of generating neuronal diversity. [ABSTRACT FROM AUTHOR]

Published
2025
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2. Exogenous dsRNA-Mediated RNAi: Mechanisms, Applications, Delivery Methods and Challenges in the Induction of Viral Disease Resistance in Plants.

Author

Venu, Emmadi, Ramya, Akurathi, Babu, Pedapudi Lokesh, Srinivas, Bhukya, Kumar, Sathiyaseelan, Reddy, Namburi Karunakar, Babu, Yeluru Mohan, Majumdar, Anik, and Manik, Suryakant

Subjects
PLANT resistance to viruses, RNA interference, SMALL interfering RNA, GENE delivery techniques, DISEASE resistance of plants
Abstract

The increasing challenges posed by plant viral diseases demand innovative and sustainable management strategies to minimize agricultural losses. Exogenous double-stranded RNA (dsRNA)-mediated RNA interference (RNAi) represents a transformative approach to combat plant viral pathogens without the need for genetic transformation. This review explores the mechanisms underlying dsRNA-induced RNAi, highlighting its ability to silence specific viral genes through small interfering RNAs (siRNAs). Key advancements in dsRNA production, including cost-effective microbial synthesis and in vitro methods, are examined alongside delivery techniques such as spray-induced gene silencing (SIGS) and nanocarrier-based systems. Strategies for enhancing dsRNA stability, including the use of nanomaterials like layered double hydroxide nanosheets and carbon dots, are discussed to address environmental degradation challenges. Practical applications of this technology against various plant viruses and its potential to ensure food security are emphasized. The review also delves into regulatory considerations, risk assessments, and the challenges associated with off-target effects and pathogen resistance. By evaluating both opportunities and limitations, this review underscores the role of exogenous dsRNA as a sustainable solution for achieving viral disease resistance in plants. [ABSTRACT FROM AUTHOR]

Published
2025
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5. Multidisciplinary Approach to Ectodermal Dysplasia

Author

Gianluca Tadini, John Timothy Wright, Smaïl Hadj-Rabia, Holm Schneider, Gianluca Tadini, John Timothy Wright, Smaïl Hadj-Rabia, and Holm Schneider

Subjects
Dermatology, Pediatrics, Medical genetics, Internal medicine, Family medicine
Abstract

Ectodermal Dysplasias (ED) are a diverse group of genetic disorders characterized by congenital defects of two or more ectodermal structures (e.g., sweat gland, tooth, nail, hair), that count about 100 different manifestations. Therefore, the multidisciplinary aspect is a novel but crucial approach to correctly diagnose and treat this kind of diseases and eventually direct patients to specialized centers. A new classification has been proposed as well as new therapeutic options, such as the first prenatal protein replacement therapy for a genetic disease, X-linked hypohidrotic ectodermal dysplasia. The chapters of this book address all relevant topics, starting with epidemiology and embryology, disease classification, molecular biology, EDA1-associated ED, WNT10A-related ED, and p63-related ED. A chapter on ED caused by defects of structural proteins is included and one specifically devoted to differential diagnoses. Specific chapters describe diagnostic assessments and treatment: odontostomatological signs and therapy, ophthalmological or otorhinolaringoiatric signs, other organ involvement, neurological and neuropsychological issues. The final part is dedicated to the most recent developments in molecular therapy and the extremely important role of parents'and patients'associations. Written by internationally renowned experts, this handy resource will be of valuable help for a variety of specialists who deal with ectodermal dysplasias in their daily clinical work, e.g., pediatricians, dermatologists, ENT-specialists, dentists.

Published
2025

6. Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration

Author

Sanjoy K. Bhattacharya and Sanjoy K. Bhattacharya

Abstract

Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration is a comprehensive reference that covers all vistas of standardization of axon regeneration, as well as all multi-omics and system level data and integration tools. By adopting a translational approach, the book bridges current research in the field to clinical applications, and readers can expect to learn standardization approaches for axon regeneration, multi-omics datasets, different databases, search engines, multiple dataset integrative tools, pathway convergence approaches and tools, outcome and outcome measures that unify bench research with clinical outcome.The axon regeneration from existing neurons in central nervous system (CNS) have become a potential possibility in the last decade. The potential possibility of long-distance axon growth has opened the possibility of re-connectivity of axons of retinal ganglion cell neurons within the lateral geniculate nucleus in the brain. The long-distance axon regeneration and re-connectivity is a promise to restore lost vision in the optic nerve. Further, long-distance regeneration and re-innervation is equally helpful for other fields such as spinal cord injuries. - Includes updates on the use of multi-omics datasets for selecting molecules for axon regeneration - Bridges the preclinical and clinical world, from selection of the molecules to outcome leading to IND filing and their use - Includes system level knowledge needed for central nervous system axon and dendrite regeneration, and standardizes the system level biology for axon regeneration - Explores the current state of multi-omics in axon and dendrite regeneration in the optic nerve and its comparison to other CNS regeneration

Published
2025

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