«Scientists develop a more effective
molecular modeling process.»
Not exact matches
Using the nascent skin of the developing chicken embryo as a
model system, we find that morphological and
molecular symmetries are simultaneously broken by an emergent
process of cellular self - organization.
The research approach is called multi-scale
modeling or MSM, to reflect the ability to study disease
processes at the
molecular, cellular, and tissue levels as well as interactions occurring between the levels.
In this study, researchers constructed a mathematical
model, based on ordinary differential equations, linking the different
molecular processes associated with spine expansion together.
Using a rodent
model of opiate addiction, Laviolette's team found that the
process of opiate addiction and withdrawal triggered a switch between two
molecular pathways in the amygdala controlling how opiate addiction memories were formed.
To study how and why DEB changes in volatility, the researchers measured properties such as vapor pressures and melting points, probed
molecular structure, and ran quantum mechanical computer simulations to
model the hydrogenation
process.
Dr. Maria Iribarne, first author of this study, commented: «The gosh mutant is a good
model for understanding the
molecular and cellular mechanism of cone cell death and the pathological
process of human LCA.
This machine learning technique builds a
model that encodes the information contained in the database, and in turn this
model can predict the outcome of the
molecular self - assembly
process with high accuracy.
Rigorous examination of this mammalian
model is the first stage in figuring out
molecular mechanisms that govern regenerative
processes, which could have a significant impact on regenerative medicine for humans.
Notophthalmus viridescens, an urodelian amphibian, represents an excellent
model organism to study regenerative
processes, but mechanistic insights into
molecular processes driving regeneration have been hindered by a paucity and poor annotation of coding nucleotide sequences.
A few species are studied as
model organisms that can be used to gain knowledge of basic
processes such as genetics, physiology, biochemistry, and
molecular biology with results that are applicable to many organisms (Taylor et al., 1993).
Stubenhaus et al. propose that flatworms are useful
models in which to study the
molecular processes that are responsible for porphyrias in humans.
Her laboratory has successfully combined electrophysiological expertise with
molecular and cell biology approaches to better understand complex mechanisms underlying the memory
process in mouse
models of AD.
«By developing this
model system to explore the
molecular underpinnings of regeneration, we now have a better understanding of the
process.»
De novo rational design of
molecular scaffolds mimicking protein interactions for specific interference in cell signaling
processes: We apply
molecular modelling and computer simulation techniques for designing molecules with pharmacological / biotechnological interest.
In patient samples and animal
models,
molecular biomarkers are used as indicators of normal and pathogenic
processes.
This framework will be built upon available open - source deep learning platforms that can be adapted to address different aspects of the cancer
process as represented by JDACS4C's challenge topics: 1) understand the
molecular basis of key protein interactions; 2) develop predictive
models for drug response; and 3) automate the extraction and analysis of information from millions of cancer patient records to determine optimal cancer treatment strategies.
memory
process; hippocampo - cortical interactions; cholinergic system; glutamatergic system; Cellular and
molecular biology; hippocampal neurogenesis; animal
models of Alzheimer's disease; animal
models of schizophrenia
The laboratory is also using chemical crosslinking - based structural mass spectrometry techniques coupled with
molecular modeling to determine structures of large protein complexes and characterize protein conformational changes involved with physiological
processes.
The Reactome Knowledgebase (https://reactome.org) provides
molecular details of signal transduction, transport, DNA replication, metabolism, and other cellular
processes as an ordered network of
molecular transformations - an extended version of a classic metabolic map, in a single consistent data
model.
in the short - term, further understand the
molecular pathways involved in the
process of oncogenic transformation in human hemopathies, using fine structural in vivo analysis of clinical materials, combined with the development of functional in vitro experimental systems and in vivo
models of genetically modified mice;
Using these neurons, we can replay the disease
process in a dish and use this as a
model to study the
molecular mechanisms involved.