Sentences with phrase «of academic structure»

Perhaps there are less traditional influences here given how young Miami is compared to NYC where much of the academic structure and shared ideas have come out of established New York schools greatly influenced by post war artists coming from Europe.

With so much else to do, and a subsequent loss of academic structure, most research shows that children read less in the summer.

In general, «they seem to encounter «glass walls» that keep them from venturing out of big companies or structured academic settings to launch their own firms at the same rate men do,» says Lesa Mitchell, a vice president with the Ewing Marion Kauffman Foundationdevoted to entrepreneurship.

Neither this article nor that post are investment recommendations but, rather, an academic overview meant to help you understand the structure, purpose, and benefits of holding companies in certain specific contexts.

Canadian telecoms company Telus» (TSE: T) plans to end its dual - class share structure could be a «potential conflict of interest» for certain executives, according to a Canadian business academic.

Derek Wang brought an academic approach to an existing challenge and assembled a team to develop a powerful yet simple method of identifying and visualizing both structured and unstructured data.

Could it be that at its core this is all about how to structure the government's regulation of academic non-profits and their endowments so as to best serve the common good?

And where custom dictates that for the sake of convenience we keep to the traditional academic structure, the philosophical question still remains as to whether biology (or psychology or any other human science) has a genuine right to autonomous existence.

Wood is not much troubled by the fact, which so disturbs Farley and Hough and Cobb, that the way in which academic disciplines are institutionalized in American higher education also dictates the structure of the curricula of theological schools.

As with most academic traditions, and especially those that are viewed as soft, there are orthodoxies and fashions, and sometimes sudden turns, that are conventionally described — following Thomas Kuhn's Structure of Scientific Revolutions of almost half a century ago — as paradigm shifts....

With such major centers of the new evangelicalism as Fuller Seminary now showing a good deal more affinity to neo-orthodoxy than to fundamentalism (see Gerald T. Sheppard, «Biblical Hermeneutics: The Academic Language of Evangelical Identity,» Union Seminary Quarterly Review 32 [Winter 1977, pp. 81 - 94]-RRB-, surely we must be cautious both about assuming flatly a «decline» of classic liberalism and about implying a one - to - one relation between the liberal ideologies, whatever their current condition, and the oldline denominational structures.

The principles of academic freedom and of relative independence for education within the political structure do not exclude or excuse those who teach from active participation in political life.

Bonhoeffer had already dealt with this theme in an academic way in his Ethics, where he spoke of the structure and pattern of responsibility.

Moreover, in addressing «the nature of the academic calling» (as they significantly still put it), the AAUP argued that «if education is the cornerstone of the structure of society and if progressing in scientific knowledge is essential to civilization, few things can be more important than to enhance the dignity of the scholar's profession...» Scientific knowledge and free inquiry thus gained near - sacred status.

But I think there is a third reason for theological education's resistance to change: the social structure of theological schools as academic institutions tends to inhibit genuine reform.

«It's a big, robust, solid looking structure and the star shape ties in with the name of the product,» says MSU packaging instructor Dennis Young, who organizes this annual competition with Rick Bayer, GPI Academic Subcommittee Chair, as part of GPI lectures to MSU packaging students.

According to «The Real College Guide,» graduating seniors at the College of William and Mary all have the opportunity to ring the bell at the country's oldest active academic structure, the Christopher Wren Building.

Careful structuring of classes allows for every child to be known and loved, while providing a broad range of learning opportunities in academics, visual and performing arts, athletics, service, and leadership.

We can talk about the wide diversity of schools and that there are good «fits» for different kids in terms of campus size, academic structure and content, geography, and experiences offered.

She does agree with his assertion that American culture has taken structured «play» with the goal of increasing future academic achievement too far.

Eligible activities will include an activity that: contributes to the development of creative skills or expertise in artistic or cultural activities; provides a substantial focus on wilderness and the natural environment; helps children develop and use particular intellectual skills; includes structured interaction among children where supervisors teach or help children develop interpersonal skills; or provides enrichment or tutoring in academic subjects.

Throughout the collection, we were keen to showcase the different parts of the UN system, not just its structures and programmes, but also the various actors who make up what is often lazily referred to as «the UN»: member states, staff and the host of groups — NGOs, academics, private sector companies, foundations, regional organisations, etc. — with which it works.

Indeed, in 1945, presidential science adviser Vannevar Bush wrote in «Science, The Endless Frontier» — the report that outlined the organizational structure that still governs federally supported academic research — that the first of five «fundamental» principles must be «stability of funds over a period of years,» a goal that Congress has never met.

A couple of weeks ago a PhD colleague used the word «tribe» to describe the departmental structures inherent to academic institutions.

But I do not see that as a loss, because I think that the government takeover of the universities with these vast structures of funding does not ultimately benefit academic freedom.

But, he continues, the considerable time needed for successfully «building and documenting [the] software tools» essential to big - data research «is time spent not writing research papers, which are the primary currency of the academic reward structure.»

The pact will do nothing, however, about the root cause of their plight, the dysfunctional pyramid structure of academic science, which encourages exploitation of young researchers.

Her analysis goes on to show how the structure of the admissions process helps perpetuate the privileges of students already in the academic stratosphere.

NIH, by the way, has recently recognized that «the career outcomes of NRSA - supported training programs include both research - intensive careers in academia and industry and research - related careers in various sectors, e.g. academic institutions, government agencies, for - profit businesses, and private foundations» and is encouraging universities with T32 programs to provide «structured, career development advising and learning opportunities» to prepare trainees for those opportunities, according to a notice issued in September 2013, near the end of the study period.

On a positive note: «Our research indicates that if a student can structure a consistent schedule in which class days resemble non-class days, they are more likely to achieve academic success,» said study co-lead author Aaron Schirmer, an associate professor of biology at Northeastern Illinois University.

Some senior academic scientists have told Teitelbaum they are «very worried» about the fact that the supply of scientists that this country's universities train is thus totally unrelated to the demand for researchers in the market for career positions, but they find it «difficult to be open about it because it's very threatening to the structure by which research is done,» Teitelbaum says.

The academics suggested that teachers should be made aware if youngsters have had a history of repeated ear infections, so they can consider the possibility of any hearing loss and understand how the consequences of these infections may impact on children as they learn about the sound structure of words and begin to read.

This week, a trio of U.S. and Chinese academic institutions announced that they'll join forces over the next 5 years with three pharmaceutical companies to determine the structures of 200 more.

This, claims the council, is mainly the result of antiquated course structures and academic degrees, which last 5 years on average.

In addition, a subsample of 42 children (29 boys, 13 girls) had brain imaging, which allowed the authors to examine the relations between the cortical structure (thickness and surface area) of their brains and academic performance.

The terrible state of academic careers resulted not from sequestration but from the fundamental structure of a funding system that has long used graduate students and postdocs as cheap labor for grant - supported research, and as a consequence has produced too many Ph.D. researchers for the existing career opportunities.

A global industry - academic consortium sets out to determine the structures of 200 membrane proteins

Researchers from the University of Granada (UGR) have proven, for the first time in history, that physical fitness in children may affect their brain structure, which in turn may have an influence on their academic performance.

«A number of labs have reported differences in children's brain structures as a function of family income, but this is the first to relate that to variation in academic achievement,» says Kimberly Noble, an assistant professor of pediatrics at Columbia University who was not part of the research team.

Today, CCP4 has around 2 million lines of code, dozens of active contributors and thousands of users worldwide, including expert crystallographers, academic researchers interested in solving structures, and scientists doing drug development at pharmaceutical companies.

A paper published this week in Astrophysical Journal, led by Open University academics, has examined the exact structure and behaviour of the icy particles that collide and grow at the onset of planet - formation, in a series of revealing experiments at the UK's world - leading neutron source, ISIS.

With a background spanning academic research, structured finance and technology protection, development and commercialisation, Adrian was recruited to optimise the ability of Sanger Institute science to provide healthcare benefit.

Partner centers of CELPHEDIA infrastructure interact closely with local academic structures, as well as regional private companies, around common topics.

It is the first comprehensive, academic diabetes and endocrinology center in Rhode Island and is structured to integrate programs on diabetes and the full spectrum of endocrine disorders.

Susan Amara, USA - «Regulation of transporter function and trafficking by amphetamines, Structure - function relationships in excitatory amino acid transporters (EAATs), Modulation of dopamine transporters (DAT) by GPCRs, Genetics and functional analyses of human trace amine receptors» Tom I. Bonner, USA (Past Core Member)- Genomics, G protein coupled receptors Michel Bouvier, Canada - Molecular Pharmacology of G protein - Coupled Receptors; Molecular mechanisms controlling the selectivity and efficacy of GPCR signalling Thomas Burris, USA - Nuclear Receptor Pharmacology and Drug Discovery William A. Catterall, USA (Past Core Member)- The Molecular Basis of Electrical Excitability Steven Charlton, UK - Molecular Pharmacology and Drug Discovery Moses Chao, USA - Mechanisms of Neurotophin Receptor Signaling Mark Coles, UK - Cellular differentiation, human embryonic stem cells, stromal cells, haematopoietic stem cells, organogenesis, lymphoid microenvironments, develomental immunology Steven L. Colletti, USA Graham L Collingridge, UK Philippe Delerive, France - Metabolic Research (diabetes, obesity, non-alcoholic fatty liver, cardio - vascular diseases, nuclear hormone receptor, GPCRs, kinases) Sir Colin T. Dollery, UK (Founder and Past Core Member) Richard M. Eglen, UK Stephen M. Foord, UK David Gloriam, Denmark - GPCRs, databases, computational drug design, orphan recetpors Gillian Gray, UK Debbie Hay, New Zealand - G protein - coupled receptors, peptide receptors, CGRP, Amylin, Adrenomedullin, Migraine, Diabetes / obesity Allyn C. Howlett, USA Franz Hofmann, Germany - Voltage dependent calcium channels and the positive inotropic effect of beta adrenergic stimulation; cardiovascular function of cGMP protein kinase Yu Huang, Hong Kong - Endothelial and Metabolic Dysfunction, and Novel Biomarkers in Diabetes, Hypertension, Dyslipidemia and Estrogen Deficiency, Endothelium - derived Contracting Factors in the Regulation of Vascular Tone, Adipose Tissue Regulation of Vascular Function in Obesity, Diabetes and Hypertension, Pharmacological Characterization of New Anti-diabetic and Anti-hypertensive Drugs, Hypotensive and antioxidant Actions of Biologically Active Components of Traditional Chinese Herbs and Natural Plants including Polypehnols and Ginsenosides Adriaan P. IJzerman, The Netherlands - G protein - coupled receptors; allosteric modulation; binding kinetics Michael F Jarvis, USA - Purines and Purinergic Receptors and Voltage-gated ion channel (sodium and calcium) pharmacology Pain mechanisms Research Reproducibility Bong - Kiun Kaang, Korea - G protein - coupled receptors; Glutamate receptors; Neuropsychiatric disorders Eamonn Kelly, Prof, UK - Molecular Pharmacology of G protein - coupled receptors, in particular opioid receptors, regulation of GPCRs by kinasis and arrestins Terry Kenakin, USA - Drug receptor pharmacodynamics, receptor theory Janos Kiss, Hungary - Neurodegenerative disorders, Alzheimer's disease Stefan Knapp, Germany - Rational design of highly selective inhibitors (so call chemical probes) targeting protein kinases as well as protein interaction inhibitors of the bromodomain family Andrew Knight, UK Chris Langmead, Australia - Drug discovery, GPCRs, neuroscience and analytical pharmacology Vincent Laudet, France (Past Core Member)- Evolution of the Nuclear Receptor / Ligand couple Margaret R. MacLean, UK - Serotonin, endothelin, estrogen, microRNAs and pulmonary hyperten Neil Marrion, UK - Calcium - activated potassium channels, neuronal excitability Fiona Marshall, UK - GPCR molecular pharmacology, structure and drug discovery Alistair Mathie, UK - Ion channel structure, function and regulation, pain and the nervous system Ian McGrath, UK - Adrenoceptors; autonomic transmission; vascular pharmacology Graeme Milligan, UK - Structure, function and regulation of G protein - coupled receptors Richard Neubig, USA (Past Core Member)- G protein signaling; academic drug discovery Stefan Offermanns, Germany - G protein - coupled receptors, vascular / metabolic signaling Richard Olsen, USA - Structure and function of GABA - A receptors; mode of action of GABAergic drugs including general anesthetics and ethanol Jean - Philippe Pin, France (Past Core Member)- GPCR - mGLuR - GABAB - structure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) traStructure - function relationships in excitatory amino acid transporters (EAATs), Modulation of dopamine transporters (DAT) by GPCRs, Genetics and functional analyses of human trace amine receptors» Tom I. Bonner, USA (Past Core Member)- Genomics, G protein coupled receptors Michel Bouvier, Canada - Molecular Pharmacology of G protein - Coupled Receptors; Molecular mechanisms controlling the selectivity and efficacy of GPCR signalling Thomas Burris, USA - Nuclear Receptor Pharmacology and Drug Discovery William A. Catterall, USA (Past Core Member)- The Molecular Basis of Electrical Excitability Steven Charlton, UK - Molecular Pharmacology and Drug Discovery Moses Chao, USA - Mechanisms of Neurotophin Receptor Signaling Mark Coles, UK - Cellular differentiation, human embryonic stem cells, stromal cells, haematopoietic stem cells, organogenesis, lymphoid microenvironments, develomental immunology Steven L. Colletti, USA Graham L Collingridge, UK Philippe Delerive, France - Metabolic Research (diabetes, obesity, non-alcoholic fatty liver, cardio - vascular diseases, nuclear hormone receptor, GPCRs, kinases) Sir Colin T. Dollery, UK (Founder and Past Core Member) Richard M. Eglen, UK Stephen M. Foord, UK David Gloriam, Denmark - GPCRs, databases, computational drug design, orphan recetpors Gillian Gray, UK Debbie Hay, New Zealand - G protein - coupled receptors, peptide receptors, CGRP, Amylin, Adrenomedullin, Migraine, Diabetes / obesity Allyn C. Howlett, USA Franz Hofmann, Germany - Voltage dependent calcium channels and the positive inotropic effect of beta adrenergic stimulation; cardiovascular function of cGMP protein kinase Yu Huang, Hong Kong - Endothelial and Metabolic Dysfunction, and Novel Biomarkers in Diabetes, Hypertension, Dyslipidemia and Estrogen Deficiency, Endothelium - derived Contracting Factors in the Regulation of Vascular Tone, Adipose Tissue Regulation of Vascular Function in Obesity, Diabetes and Hypertension, Pharmacological Characterization of New Anti-diabetic and Anti-hypertensive Drugs, Hypotensive and antioxidant Actions of Biologically Active Components of Traditional Chinese Herbs and Natural Plants including Polypehnols and Ginsenosides Adriaan P. IJzerman, The Netherlands - G protein - coupled receptors; allosteric modulation; binding kinetics Michael F Jarvis, USA - Purines and Purinergic Receptors and Voltage-gated ion channel (sodium and calcium) pharmacology Pain mechanisms Research Reproducibility Bong - Kiun Kaang, Korea - G protein - coupled receptors; Glutamate receptors; Neuropsychiatric disorders Eamonn Kelly, Prof, UK - Molecular Pharmacology of G protein - coupled receptors, in particular opioid receptors, regulation of GPCRs by kinasis and arrestins Terry Kenakin, USA - Drug receptor pharmacodynamics, receptor theory Janos Kiss, Hungary - Neurodegenerative disorders, Alzheimer's disease Stefan Knapp, Germany - Rational design of highly selective inhibitors (so call chemical probes) targeting protein kinases as well as protein interaction inhibitors of the bromodomain family Andrew Knight, UK Chris Langmead, Australia - Drug discovery, GPCRs, neuroscience and analytical pharmacology Vincent Laudet, France (Past Core Member)- Evolution of the Nuclear Receptor / Ligand couple Margaret R. MacLean, UK - Serotonin, endothelin, estrogen, microRNAs and pulmonary hyperten Neil Marrion, UK - Calcium - activated potassium channels, neuronal excitability Fiona Marshall, UK - GPCR molecular pharmacology, structure and drug discovery Alistair Mathie, UK - Ion channel structure, function and regulation, pain and the nervous system Ian McGrath, UK - Adrenoceptors; autonomic transmission; vascular pharmacology Graeme Milligan, UK - Structure, function and regulation of G protein - coupled receptors Richard Neubig, USA (Past Core Member)- G protein signaling; academic drug discovery Stefan Offermanns, Germany - G protein - coupled receptors, vascular / metabolic signaling Richard Olsen, USA - Structure and function of GABA - A receptors; mode of action of GABAergic drugs including general anesthetics and ethanol Jean - Philippe Pin, France (Past Core Member)- GPCR - mGLuR - GABAB - structure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) trastructure and drug discovery Alistair Mathie, UK - Ion channel structure, function and regulation, pain and the nervous system Ian McGrath, UK - Adrenoceptors; autonomic transmission; vascular pharmacology Graeme Milligan, UK - Structure, function and regulation of G protein - coupled receptors Richard Neubig, USA (Past Core Member)- G protein signaling; academic drug discovery Stefan Offermanns, Germany - G protein - coupled receptors, vascular / metabolic signaling Richard Olsen, USA - Structure and function of GABA - A receptors; mode of action of GABAergic drugs including general anesthetics and ethanol Jean - Philippe Pin, France (Past Core Member)- GPCR - mGLuR - GABAB - structure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) trastructure, function and regulation, pain and the nervous system Ian McGrath, UK - Adrenoceptors; autonomic transmission; vascular pharmacology Graeme Milligan, UK - Structure, function and regulation of G protein - coupled receptors Richard Neubig, USA (Past Core Member)- G protein signaling; academic drug discovery Stefan Offermanns, Germany - G protein - coupled receptors, vascular / metabolic signaling Richard Olsen, USA - Structure and function of GABA - A receptors; mode of action of GABAergic drugs including general anesthetics and ethanol Jean - Philippe Pin, France (Past Core Member)- GPCR - mGLuR - GABAB - structure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) traStructure, function and regulation of G protein - coupled receptors Richard Neubig, USA (Past Core Member)- G protein signaling; academic drug discovery Stefan Offermanns, Germany - G protein - coupled receptors, vascular / metabolic signaling Richard Olsen, USA - Structure and function of GABA - A receptors; mode of action of GABAergic drugs including general anesthetics and ethanol Jean - Philippe Pin, France (Past Core Member)- GPCR - mGLuR - GABAB - structure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) traStructure and function of GABA - A receptors; mode of action of GABAergic drugs including general anesthetics and ethanol Jean - Philippe Pin, France (Past Core Member)- GPCR - mGLuR - GABAB - structure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) trastructure function relationship - pharmacology - biophysics Helgi Schiöth, Sweden David Searls, USA - Bioinformatics Graeme Semple, USA - GPCR Medicinal Chemistry Patrick M. Sexton, Australia - G protein - coupled receptors Roland Staal, USA - Microglia and neuroinflammation in neuropathic pain and neurological disorders Bart Staels, France - Nuclear receptor signaling in metabolic and cardiovascular diseases Katerina Tiligada, Greece - Immunopharmacology, histamine, histamine receptors, hypersensitivity, drug allergy, inflammation Georg Terstappen, Germany - Drug discovery for neurodegenerative diseases with a focus on AD Mary Vore, USA - Activity and regulation of expression and function of the ATP - binding cassette (ABC) transporters

An active, renowned member of the academic science community until the very end, Perham was distinguished for his work on the chemistry of proteins and the assembly of giant protein complexes and was a leader in bringing the power of protein - engineering approaches to problems of protein structure and function.

«Our research indicates that if a student can structure a consistent schedule in which class days resemble non-class days, they are more likely to achieve academic success,» said co-lead author Aaron Schirmer, an associate professor of biology at Northeastern Illinois University.

«Meditative practices have the potential to actually change the structure and function of the brain in ways that foster academic success.

In a classroom where students are doing the majority of the talking, where they are engaged with each other in rich, structured conversations and where they use academic vocabulary to support their ideas with evidence, I know two things are happening: Students are experiencing deeper learning, and this classroom is a step closer to ensuring educational equity.

And now let's take another step back and consider the alignment between the work done by those outside of the classroom — including principals, central office administrators, and superintendents — and the desired goal of seeing deeper learning structures, like rich academic discourse, experienced by all students.