We identified Protein Kinase C - theta as
the first key protein that serves as master switch for determining the physiological outcome to initial T cell activation.
Not exact matches
It
first started with the original Cheesecake
Protein Bars, then was the Peanut Butter Chocolate Cheesecake
Protein Bars, then Lemon Cheesecake
Protein Bars, then Coconut Cheesecake
Protein Bars and finally
Key Lime Cheesecake
Protein Bars.
Seasoning the
first layer onto the
protein and then the last layer or I should say the
first layer you taste, is
key to that saying, it has depth of flavor.
The subject of lowering heavy metals in plant - based foods has been a
key initiative addressed by Axiom Foods since Oryzatein ® brown rice
protein was
first USDA organic certified in 2009.
«Breast milk continues to provide substantial amounts of
key nutrients well beyond the
first year of life, especially
protein, fat, and most vitamins.»
«Our results show, for the
first time, that these two
proteins — a receptor and its corresponding binding
protein — play a
key role in the progression of rheumatoid arthritis pathology,» said Shiva Shahrara, associate professor of rheumatology at UIC.
A third group
first got an injection of a compound known to block the effects of interleukin - 1 beta (IL - 1), a
protein involved in activating the inflammatory immune response and shown in previous research to be a
key player in modulating fetal brain injury following exposure to inflammation in the womb.
Dr. Menko, together with
first author Caitlin Logan, MD, PhD, and second author Caitlin Bowen, was looking at a mouse that had been engineered to stop producing a
key developmental
protein called N - cadherin just as the lens was beginning to form.
The
first study used fruit flies as an in vivo test system to reveal new evidence about the function of a
key influenza
protein called NS1, which has evolved to target molecular pathways in the host.
In a paper published this week in Current Biology, postdoctoral fellow David Kast, PhD, and professor Roberto Dominguez, PhD, and three other colleagues from the Department of Physiology at the Perelman School of Medicine at the University of Pennsylvania, show for the
first time that the formation of ephemeral compartments
key in this process require actin polymerization by the Arp2 / 3 complex, a composite of seven
proteins.
Dr. Espen Spangenburg, associate professor of kinesiology, and his laboratory team are the
first to identify that the BRCA1
protein is expressed in the skeletal muscle of both mice and humans, and that it plays a
key role in fat storage, insulin response and mitochondrial function in skeletal muscle cells.
For example, it revealed for the
first time that one region of a kinase called CheA (
KEY aye), changes its orientation in relation to the other
proteins, in a motion the researchers call «dipping.»
It's helped Bertozzi capture the
first images of glycoproteins,
proteins coated with sugars that play a
key role in diseases such as cancer.
To visualize translation, Dr. Singer and his colleagues took advantage of a
key occurrence during the
first round of translation: the ribosome to which mRNAs attach must displace so - called RNA - binding
proteins from the mRNAs.
In 1988, Scheller identified the
first key vesicle membrane
protein, which he termed VAMP, now also known as synaptobrevin.
The next major advance which moved this analysis from a cell physiological to a molecular level was accomplished by Scheller and Südhof who made overlapping contributions that characterized the
proteins that controlled the two
key steps of transmitter release: 1) They showed the mechanism by which the vesicle is mobilized to the release sites of the presynaptic terminal, where the synaptic vesicle
first fuses with the membrane of the sending neuron and then leaves the cell, and 2) they also discovered how Ca2 + drives the vesicle to release its contents.
The team used genome editing techniques to stop a
key gene from producing a
protein called OCT4, which normally becomes active in the
first few days of human embryo development.
The
first - ever high - resolution 3 - D maps of HPV reveal
key characteristics of its outer shell, or capsid, and the
proteins that assemble it.
Scientists in the lab of Whitehead Institute Member David Sabatini have for the
first time identified a
protein that appears to be a nutrient sensor for the
key growth - regulating mTORC1 metabolic pathway.
The
first one plays a
key role in the assembly of complex I, the
first of a series of
protein complexes used to create ATP.
First, Nanog opened two
key cellular pathways, known as Rho - associated
protein kinase (ROCK) and Transforming growth factor beta (TGF - β).
With the discovery of Asgard» clade archaea, the homologs of
key eukaryote cytoskeletal
proteins have, for the
first time, been identified in archaea.
Aging and the apoE4
protein combine to impair inhibitory neurons in the hippocampus — a
key memory center that is among the
first regions affected by Alzheimer's.
However, a few years ago, scientists in the Lodish laboratory found a
protein, termed FATP (Fatty Acid Transport Protein), that plays a key role in transporting a vital fatty acid nutrient into heart muscle; this protein was the first known fatty acid trans
protein, termed FATP (Fatty Acid Transport
Protein), that plays a key role in transporting a vital fatty acid nutrient into heart muscle; this protein was the first known fatty acid trans
Protein), that plays a
key role in transporting a vital fatty acid nutrient into heart muscle; this
protein was the first known fatty acid trans
protein was the
first known fatty acid transporter.
GSK3β, the
first neighbour of β - catenin is a central, highly multi-functional
protein known as a
key protein difficult to inhibit without causing side effects and toxicity.41 In glioblastoma and NSCLC cancer, previous studies found that the decreased level of FRAT1 influences the GSK3β activity to phosphorylate β - catenin and by that, inhibit the WNT pathway.39, 40 The role of FRAT1 in colon cancer is less known but based on its function in other cancer types and its special influencing position in colon cancer signalling, we point out its relevance as a potential target in colon cancer therapy (Fig. 3d).
To understand the selection mechanism behind mutations, network - based studies were used to estimate the importance of a mutated
protein compared to non-mutated ones in signalling and
protein —
protein interaction networks.10, 11,12,13
Proteins mutated in cancer were found having a high number of interacting partners (i.e., a high degree of connectivity), which indicates high local importance.10 Mutated proteins are also often found in the centre of the network, in key global positions, as quantified by the number of shortest paths passing through them if all proteins are connected with each other (i.e., they have high betweenness centrality; hereafter called betweenness).11, 12 Mutated proteins also have high clustering coefficients, which means their neighbours are also neighbours of each other.10, 13 Moreover, neighbourhood analysis of mutated proteins have been previously successfully used to predict novel cancer - related genes.14, 15 However, to the best of our knowledge, no study has concentrated particularly on the topological importance of first neighbours of mutated proteins in cancer, and their usefulness as drug targets the
Proteins mutated in cancer were found having a high number of interacting partners (i.e., a high degree of connectivity), which indicates high local importance.10 Mutated
proteins are also often found in the centre of the network, in key global positions, as quantified by the number of shortest paths passing through them if all proteins are connected with each other (i.e., they have high betweenness centrality; hereafter called betweenness).11, 12 Mutated proteins also have high clustering coefficients, which means their neighbours are also neighbours of each other.10, 13 Moreover, neighbourhood analysis of mutated proteins have been previously successfully used to predict novel cancer - related genes.14, 15 However, to the best of our knowledge, no study has concentrated particularly on the topological importance of first neighbours of mutated proteins in cancer, and their usefulness as drug targets the
proteins are also often found in the centre of the network, in
key global positions, as quantified by the number of shortest paths passing through them if all
proteins are connected with each other (i.e., they have high betweenness centrality; hereafter called betweenness).11, 12 Mutated proteins also have high clustering coefficients, which means their neighbours are also neighbours of each other.10, 13 Moreover, neighbourhood analysis of mutated proteins have been previously successfully used to predict novel cancer - related genes.14, 15 However, to the best of our knowledge, no study has concentrated particularly on the topological importance of first neighbours of mutated proteins in cancer, and their usefulness as drug targets the
proteins are connected with each other (i.e., they have high betweenness centrality; hereafter called betweenness).11, 12 Mutated
proteins also have high clustering coefficients, which means their neighbours are also neighbours of each other.10, 13 Moreover, neighbourhood analysis of mutated proteins have been previously successfully used to predict novel cancer - related genes.14, 15 However, to the best of our knowledge, no study has concentrated particularly on the topological importance of first neighbours of mutated proteins in cancer, and their usefulness as drug targets the
proteins also have high clustering coefficients, which means their neighbours are also neighbours of each other.10, 13 Moreover, neighbourhood analysis of mutated
proteins have been previously successfully used to predict novel cancer - related genes.14, 15 However, to the best of our knowledge, no study has concentrated particularly on the topological importance of first neighbours of mutated proteins in cancer, and their usefulness as drug targets the
proteins have been previously successfully used to predict novel cancer - related genes.14, 15 However, to the best of our knowledge, no study has concentrated particularly on the topological importance of
first neighbours of mutated
proteins in cancer, and their usefulness as drug targets the
proteins in cancer, and their usefulness as drug targets themselves.
The
first key to revving - up metabolism is eating a whole foods diet: lean
protein, high quality grains, plant - based fats and oils, fresh fruits and veggies, and drinking lots of water.
«However, the animal
protein component is the
first place to look because animal
proteins are
key ingredients in pet food recipes and thus contain the biggest percentage of
proteins,» she added.
The
key is to select a dog food that has at least two animal
proteins in the
first three ingredients.