Jamie A. Davies

Jamie A. Davies's AcademicInfluence.com Rankings

Jamie A. Davies

Biology

#3348

World Rank

#5136

Historical Rank

Anatomy

#41

World Rank

#206

Historical Rank

biology Degrees

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Biology

Why Is Jamie A. Davies Influential?

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According to Wikipedia, Jamie A. Davies FRSE FLSW is a British scientist, Professor of Experimental Anatomy at the University of Edinburgh, and leader of a laboratory in its Centre for Integrative Physiology. He works in the fields of Developmental biology, Synthetic biology, and Tissue engineering. He is also Principal Investigator for the IUPHAR/BPS Guide to Pharmacology database.

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Jamie A. Davies's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

The IUPHAR/BPS Guide to PHARMACOLOGY in 2018: updates and expansion to encompass the new guide to IMMUNOPHARMACOLOGY (2017) (1500)
The IUPHAR/BPS Guide to PHARMACOLOGY in 2016: towards curated quantitative interactions between 1300 protein targets and 6000 ligands (2015) (1100)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Enzymes (2017) (606)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: G protein‐coupled receptors (2017) (560)
The Concise Guide to PHARMACOLOGY 2015/16: Enzymes (2015) (559)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: G protein‐coupled receptors (2019) (558)
The Concise Guide to PHARMACOLOGY 2015/16: G protein‐coupled receptors (2015) (549)
Persephin, a Novel Neurotrophic Factor Related to GDNF and Neurturin (1998) (528)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Enzymes (2019) (443)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Introduction and Other Protein Targets (2019) (295)
Isolation from chick somites of a glycoprotein fraction that causes collapse of dorsal root ganglion growth cones (1990) (285)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Overview (2017) (266)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Ion channels (2019) (262)
GUDMAP: the genitourinary developmental molecular anatomy project. (2008) (246)
The GUDMAP database – an online resource for genitourinary research (2011) (237)
Development of an siRNA-based method for repressing specific genes in renal organ culture and its use to show that the Wt1 tumour suppressor is required for nephron differentiation. (2003) (217)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: G protein‐coupled receptors (2021) (212)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Catalytic receptors (2019) (198)
The Concise Guide to PHARMACOLOGY 2015/16: Transporters (2015) (197)
The Concise Guide to PHARMACOLOGY 2015/16: Voltage‐gated ion channels (2015) (193)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Voltage‐gated ion channels (2017) (193)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Transporters (2017) (191)
Dissociation of embryonic kidneys followed by reaggregation allows the formation of renal tissues. (2010) (188)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Catalytic receptors (2017) (181)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Transporters (2019) (176)
Erk MAP kinase regulates branching morphogenesis in the developing mouse kidney. (2001) (173)
The Concise Guide to PHARMACOLOGY 2015/16: Catalytic receptors (2015) (164)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: Enzymes (2021) (161)
In vivo maturation of functional renal organoids formed from embryonic cell suspensions. (2012) (157)
A wt1-controlled chromatin switching mechanism underpins tissue-specific wnt4 activation and repression. (2011) (157)
Do different branching epithelia use a conserved developmental mechanism? (2002) (155)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Ligand‐gated ion channels (2017) (151)
The IUPHAR/BPS Guide to PHARMACOLOGY database (GtoPdb) in 2018: new features and updates (2018) (150)
A high-resolution anatomical ontology of the developing murine genitourinary tract. (2007) (147)
The IUPHAR/BPS Guide to PHARMACOLOGY in 2020: extending immunopharmacology content and introducing the IUPHAR/MMV Guide to MALARIA PHARMACOLOGY (2019) (147)
The Concise Guide to PHARMACOLOGY 2015/16: Ligand‐gated ion channels (2015) (139)
Pattern and regulation of cell proliferation during murine ureteric bud development (2004) (138)
Mesenchyme to epithelium transition during development of the mammalian kidney tubule. (1996) (135)
THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Nuclear hormone receptors (2019) (132)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Nuclear hormone receptors (2017) (131)
The Concise Guide to PHARMACOLOGY 2015/16: Nuclear hormone receptors (2015) (129)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: Ion channels (2021) (122)
Genes and Proteins in Renal Development (2002) (122)
An illustrated anatomical ontology of the developing mouse lower urogenital tract (2015) (98)
Mechanisms of Morphogenesis (2005) (95)
Calcium/NFAT signalling promotes early nephrogenesis (2011) (94)
Integrated β-catenin, BMP, PTEN, and Notch signalling patterns the nephron (2014) (84)
Simultaneous loss of expression of syndecan-1 and E-cadherin in the embryonic palate during epithelial-mesenchymal transformation. (1998) (81)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: Catalytic receptors (2021) (79)
8 The Development of the Kidney (1998) (76)
Synthetic morphology: prospects for engineered, self‐constructing anatomies (2008) (75)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: Introduction and Other Protein Targets (2021) (75)
Contribution of human amniotic fluid stem cells to renal tissue formation depends on mTOR. (2010) (73)
Using synthetic biology to explore principles of development (2017) (72)
An improved kidney dissociation and reaggregation culture system results in nephrons arranged organotypically around a single collecting duct system (2011) (71)
A role for microfilament-based contraction in branching morphogenesis of the ureteric bud. (2005) (65)
2- and 3-dimensional synthetic large-scale de novo patterning by mammalian cells through phase separation (2016) (64)
Epithelial-mesenchymal transitions (1997) (62)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: Transporters (2021) (59)
A rational roadmap for SARS‐CoV‐2/COVID‐19 pharmacotherapeutic research and development: IUPHAR Review 29 (2020) (59)
A Novel, Low-Volume Method for Organ Culture of Embryonic Kidneys That Allows Development of Cortico-Medullary Anatomical Organization (2010) (58)
Cell-cell interactions driving kidney morphogenesis. (2015) (57)
Molecular aspects of the epithelial phenotype (1997) (53)
Why data citation isn't working, and what to do about it (2020) (52)
Cycles of vascular plexus formation within the nephrogenic zone of the developing mouse kidney (2017) (52)
Neurturin: an autocrine regulator of renal collecting duct development. (1999) (52)
Dual-controlled optogenetic system for the rapid down-regulation of protein levels in mammalian cells (2018) (51)
The Kidney Development Database. (1999) (50)
Collecting duct morphogenesis (1999) (49)
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Other ion channels (2017) (47)
IUPHAR/BPS guide to pharmacology (2020) (47)
Developmental plasticity and regenerative capacity in the renal ureteric bud/collecting duct system (2008) (46)
The lectin Dolichos biflorus agglutinin is a sensitive indicator of branching morphogenetic activity in the developing mouse metanephric collecting duct system (2007) (45)
An Improved Method of Renal Tissue Engineering, by Combining Renal Dissociation and Reaggregation with a Low-Volume Culture Technique, Results in Development of Engineered Kidneys Complete with Loops of Henle (2012) (44)
A Secreted BMP Antagonist, Cer1, Fine Tunes the Spatial Organization of the Ureteric Bud Tree during Mouse Kidney Development (2011) (41)
The Concise Guide to PHARMACOLOGY 2015/16: Other ion channels (2015) (41)
Cell biology of ureter development. (2013) (39)
The IUPHAR/BPS guide to PHARMACOLOGY in 2022: curating pharmacology for COVID-19, malaria and antibacterials (2021) (39)
THE CONCISE GUIDE TO PHARMACOLOGY 2021/22: Nuclear hormone receptors (2021) (39)
Tissue Regeneration - From Basic Biology to Clinical Application (2012) (38)
Developmental biologists' choice of subjects approximates to a power law, with no evidence for the existence of a special group of 'model organisms' (2007) (37)
Dissociation of embryonic kidney followed by re-aggregation as a method for chimeric analysis. (2012) (37)
Morphogenesis of the Metanephric Kidney (2002) (34)
A library of mammalian effector modules for synthetic morphology (2014) (33)
Macrophages restrict the nephrogenic field and promote endothelial connections during kidney development (2019) (32)
Automation in the Life Science Research Laboratory (2020) (32)
Inductive interactions between the mesenchyme and the ureteric bud. (1996) (32)
A self-avoidance mechanism in patterning of the urinary collecting duct tree (2014) (31)
Synthetic biology meets tissue engineering (2016) (31)
Asymmetric BMP4 signalling improves the realism of kidney organoids (2017) (30)
The individual success of musicians, like that of physicists, follows a stretched exponential distribution (2002) (29)
Regulation, necessity, and the misinterpretation of knockouts (2009) (29)
Transport of organic anions and cations in murine embryonic kidney development and in serially-reaggregated engineered kidneys (2015) (28)
Esrrg functions in early branch generation of the ureteric bud and is essential for normal development of the renal papilla (2010) (28)
Integrated beta-catenin, BMP, PTEN, and Notch signalling patterns the nephron (2013) (28)
Segmentation and the development of the vertebrate nervous system. (1990) (28)
Engineering kidneys from simple cell suspensions: an exercise in self-organization (2013) (27)
siRNA as a tool for investigating organogenesis (2008) (27)
Kidney development: the inductive interactions (1996) (26)
Engineered renal tissue as a potential platform for pharmacokinetic and nephrotoxicity testing. (2014) (23)
A rational roadmap for SARS-CoV-2/COVID-19 pharmacotherapeutic research and development (2020) (23)
Dact2 is expressed in the developing ureteric bud/collecting duct system of the kidney and controls morphogenetic behavior of collecting duct cells. (2010) (22)
Watching tubules glow and branch. (2005) (21)
Integration potential of mouse and human bone marrow-derived mesenchymal stem cells. (2012) (21)
The embryonic kidney: isolation, organ culture, immunostaining and RNA interference. (2010) (20)
Application of synthetic biology to regenerative medicine (2011) (18)
Nephrons require Rho-kinase for proximal-distal polarity development (2013) (17)
Epithelial branching: the power of self-loathing. (2007) (16)
Synthetic Biology: A Very Short Introduction (2018) (15)
Organoids and mini-organs: Introduction, history, and potential (2018) (14)
Node retraction during patterning of the urinary collecting duct system (2014) (14)
Deducing the stage of origin of Wilms' tumours from a developmental series of Wt1-mutant mice (2015) (14)
Deducing the stage of origin of Wilms' tumours from a developmental series of Wt1-mutant mice (2015) (13)
Access and use of the GUDMAP database of genitourinary development. (2012) (13)
Segmentation and the development of the nervous system (1990) (13)
Rapid Fabrication of Cell-Laden Alginate Hydrogel 3D Structures by Micro Dip-Coating (2017) (13)
Engineering pattern formation and morphogenesis (2020) (13)
Self-organized Kidney Rudiments: Prospects for Better in vitro Nephrotoxicity Assays (2015) (13)
Real-World Synthetic Biology: Is It Founded on an Engineering Approach, and Should It Be? (2019) (12)
FAK–Src signalling is important to renal collecting duct morphogenesis: discovery using a hierarchical screening technique (2013) (12)
The KIDSTEM European Research Training Network (2007) (12)
Synthetic self-patterning and morphogenesis in mammalian cells: a proof-of-concept step towards synthetic tissue development (2017) (12)
Replacing Animal Models: A Practical Guide to Creating and Using Culture-Based Biomimetic Alternatives (2012) (12)
Molecular cloning and expression pattern of rpr‐1, a resiniferatoxin‐binding, phosphotriesterase‐related protein, expressed in rat kidney tubules 1 (1997) (11)
© 2012 Landes Bioscience. Do not distribute. In-lab three-dimensional printing An inexpensive tool for experimentation and visualization for the field of organogenesis (2012) (11)
Differentiation of a Contractile, Ureter-Like Tissue, from Embryonic Stem Cell-Derived Ureteric Bud and Ex Fetu Mesenchyme. (2020) (11)
Accessing Expert‐Curated Pharmacological Data in the IUPHAR/BPS Guide to PHARMACOLOGY (2018) (10)
Inverse Correlation between an Organ’s Cancer Rate and Its Evolutionary Antiquity (2004) (10)
Mechanisms of Morphogenesis (2nd Ed) (2013) (10)
Refuting the hypothesis that semaphorin‐3f/neuropilin‐2 exclude blood vessels from the cap mesenchyme in the developing kidney (2017) (10)
Symmetry‐breaking in branching epithelia: cells on micro‐patterns under flow challenge the hypothesis of positive feedback by a secreted autocrine inhibitor of motility (2017) (9)
The anatomy of organogenesis: novel solutions to old problems. (2006) (9)
A method for cold storage and transport of viable embryonic kidney rudiments. (2006) (9)
Biological techniques: Kidney tissue grown from induced stem cells (2015) (8)
Tamoxifen- and Mifepristone-Inducible Versions of CRISPR Effectors, Cas9 and Cpf1. (2018) (8)
Developmental biologists' choice of subjects approximates to a power law, with no evidence for the existence of a special group of 'model organisms' (2007) (8)
Bioengineering Self-Organizing Signaling Centers to Control Embryoid Body Pattern Elaboration. (2021) (8)
Vascularizing the Kidney in the Embryo and Organoid: Questioning Assumptions about Renal Vasculogenesis. (2018) (7)
In-lab three-dimensional printing (2012) (7)
Engineered kidneys: principles, progress, and prospects (2014) (7)
A new guide to immunopharmacology (2018) (7)
A computer database for kidney development (1996) (7)
Functional transport of organic anions and cations in the murine mesonephros. (2018) (7)
In developing mouse kidneys, orientation of loop of Henle growth is adaptive and guided by long‐range cues from medullary collecting ducts (2019) (5)
The IUPHAR Guide to Immunopharmacology: connecting immunology and pharmacology (2020) (5)
Making immortalized cell lines from embryonic mouse kidney. (2012) (5)
Human Anatomy: Color Atlas and Text (2003) (5)
Development of the Ureteric Bud (2003) (5)
Regenerative medicine therapies: lessons from the kidney (2020) (4)
siRNA-mediated RNA interference in embryonic kidney organ culture. (2012) (4)
Synthetic Biology: Rational Pathway Design for Regenerative Medicine (2015) (4)
Emergence of structure in mouse embryos: Structural Entropy morphometry applied to digital models of embryonic anatomy (2019) (4)
Why a Book on Branching, and Why Now? (2005) (4)
PRINCIPLES OF DEVELOPMENTAL GENETICS, 2ND EDITION (2015) (4)
Challenges of Connecting Chemistry to Pharmacology: Perspectives from Curating the IUPHAR/BPS Guide to PHARMACOLOGY (2018) (4)
SynPharm: A Guide to PHARMACOLOGY Database Tool for Designing Drug Control into Engineered Proteins (2018) (4)
Design of an irreversible DNA memory element (2007) (3)
Dact 2 is expressed in the developing ureteric bud / collecting duct system of the kidney and controls morphogenetic behavior of collecting duct cells (2010) (3)
Anatomical complexity is acquired at an exponential rate during mouse embryonic development (2016) (3)
Synthetic Biology Approaches for Regenerative Medicine (2014) (3)
Pax2: A "Keep to the Path" Sign on Waddington's Epigenetic Landscape. (2017) (3)
Sebinger Culture: A System Optimized for Morphological Maturation and Imaging of Cultured Mouse Metanephric Primordia. (2018) (3)
Four challenges for organoid engineers (2018) (3)
Approved drug and clinical target curation in the IUPHAR/BPS Guide to PHARMACOLOGY (2014) (3)
ORGANOID AND TISSUE PATTERNING THROUGH PHASE SEPARATION: USE OF A VERTEX MODEL TO RELATE DYNAMICS OF PATTERNING TO UNDERLYING BIOPHYSICAL PARAMETERS (2017) (3)
Development, databases and the Internet. (1995) (3)
Self-Organization as a Tool in Mammalian Tissue Engineering (2011) (3)
Optogenetic Downregulation of Protein Levels to Control Programmed Cell Death in Mammalian Cells with a Dual Blue-Light Switch. (2020) (3)
Renal structure and function in vertebrates (2006) (2)
Guidance by Contact (2013) (2)
Growth cone collapse - a simple assay for monitoring cell-cell repulsion. (1991) (2)
Introduction to Immunocytochemistry (2003) (2)
Adaptive self‐organization in the embryo: its importance to adult anatomy and to tissue engineering (2017) (2)
Inverse pharmacology: Approaches and tools for introducing druggability into engineered proteins (2019) (2)
Welcome to Organogenesis! (2004) (2)
Mechanical and Mathematical Models of Morphogenesis (2013) (2)
SynPharm and the guide to pharmacology database: A toolset for conferring drug control on engineered proteins (2020) (1)
Cell Migration in Development (2013) (1)
Connection of ES Cell-derived Collecting Ducts and Ureter-like Structures to Host Kidneys in Culture (2021) (1)
Genomic Evidence of In-Flight SARS-CoV-2 Transmission, India to Australia, April 2021 (2022) (1)
Branching Morphogenesis in Mammalian Kidneys (2005) (1)
Machines for living in: Connections and contrasts between designed architecture and the development of living forms (2016) (1)
Synthetic Morphogenesis: Introducing IEEE Journal Readers to Programming Living Mammalian Cells to Make Structures (2022) (1)
Morphogenesis of the kidney (2002) (1)
Author response: Macrophages restrict the nephrogenic field and promote endothelial connections during kidney development (2019) (1)
Cycles of vascular plexus formation within the nephrogenic zone of the developing mouse kidney (2017) (1)
Control of Organogenesis: Towards Effective Tissue Engineering (2009) (1)
Organizing Organoids: Stem Cells Branch Out. (2017) (1)
The Power and Limitations of Self-Assembly (2013) (1)
The Urinary System (2016) (1)
The Nano-Machinery of Locomotion (2013) (1)
Disinherited daughters travel by tube. (2013) (1)
Corrigendum to “A high-resolution anatomical ontology of the developing murine genitourinary tract” [Gene Expression Patterns 7 (2007) 680–699] (2007) (1)
Morphogenesis of Individual Cells (2013) (1)
Potential Advantages of Using Biomimetic Alternatives (2012) (1)
Guidance by Galvanotaxis (2013) (1)
Morphogenesis by Orientated Cell Division (2013) (1)
Control of Organogenesis (2009) (1)
Investigating Aspects of Renal Physiology and Pharmacology in Organ and Organoid Culture. (2019) (1)
Cellular mechanisms of morphogenesis (2008) (1)
Key Principles of Morphogenesis (2013) (1)
A self-avoidance mechanism in patterning of the urinary collecting duct tree (2014) (1)
Rational pathway design for regenerative medicine (2015) (1)
Morphogenesis by Elective Cell Death (2013) (0)
6. Synthetic biology for basic research (2018) (0)
Modelling Using Living Cells: Tissue Engineering and Synthetic Morphology (2013) (0)
Letter from the Editor (2007) (0)
2008 LANDES BIOSCIENCE. DO NOT DISTRIBUTE. (2008) (0)
Boundaries to Epithelial Movement (2013) (0)
Waypoint Navigation in the Embryo (2013) (0)
Growth, Proliferation and Death (2013) (0)
09-P032 – Withdrawn (2009) (0)
3. Synthetic biology and the environment (2018) (0)
Modelling Morphogenesis: A Brief Overview (2013) (0)
The Guide to PHARMACOLOGY druggable genome coverage (2018) (0)
Synthetic Morphology – engineering cells to make designer anatomy. (2011) (0)
Explorer Calcium / NFAT signalling promotes early nephrogenesis (2017) (0)
Why a book on branching morphogenesis, and why now? (2005) (0)
8. Cultural impact (2018) (0)
Renal engineering: strategies to address the problem of the ureter. (2021) (0)
Erratum to: Access and Use of the GUDMAP Database of Genitourinary Development (2012) (0)
Edinburgh Explorer An improved dissociation and re-aggregation culture system results in nephrons arranged organotypically around a single collecting duct system. (2017) (0)
Hierarchical Screening of Pathways: Using Cell and Organ Cultures to Reduce use of Transgenic Mice (2012) (0)
A library of mammalian effector modules for synthetic morphology (2014) (0)
Summarising Multi Well Plate Cellular Assay [R package bioassays version 1.0.1] (2020) (0)
Replacing animal models (2012) (0)
Cellular Morphogenesis in Plants (2013) (0)
Branching morphogenesis of mammalian epithelia (2006) (0)
S08-09 Construction and re-construction of the mammalian kidney (2009) (0)
Glycoasminoglycans in mammalian organ development (2001) (0)
The International Union of Basic and Clinical Pharmacology Committee on Receptor Nomenclature and Drug Classification (NC-IUPHAR): Relevance to pharmacology today and challenges for the future (2018) (0)
From organoids to mini-organs: A case study in the kidney (2018) (0)
Synthetic morphology: a powerful tool for future tissue engineering? (2013) (0)
Environmental pharmacology—Dosing the environment: IUPHAR review 36 (2022) (0)
Book review: A Practical guide to developmental biology (2004) (0)
Synthetic morphology: modules for engineering biological form. (2010) (0)
Animal Cell Shape: The Importance of the Cytoskeleton (2013) (0)
Edinburgh Research Explorer Adaptive self-organization in the embryo: its importance to adult anatomy and to tissue engineering (2017) (0)
Data supporting Cachat et al. (2017): "Synthetic self-patterning and morphogenesis in mammalian cells: a proof-of-concept step towards synthetic tissue development" (2017) (0)
Stratified tissue biofabrication by rotational internal flow layer engineering (2022) (0)
Synthetic biology: parts and systems (2010) (0)
The Edinburgh Synthetic Morphology Project. (2011) (0)
Analysing curated protein targets: partitioning the drugged and the druggable (2015) (0)
D68 during Period of Increased Influenza-Like Illness, Maryland, USA, 2021 (2022) (0)
4. Synthetic biology and healthcare (2018) (0)
3. Homeostasis (2021) (0)
KIDREGEN-Ivestigating the ability of embryonic stem cell derivatives to improve renal function in a murine model of kidney disease (2012) (0)
Chapter 14 – Epithelial Branching: Mechanisms of Patterning and Self-Organization (2014) (0)
The Epithelial State (2013) (0)
Hierarchical screening of pathways (2012) (0)
Mammalian Embryo: Branching Morphogenesis (2009) (0)
Explorer Application of synthetic biology to regenerative medicine (0)
2. How synthetic biology is done (2018) (0)
Development of the collecting duct system (2003) (0)
The big data join in pharmacology: linking structures, databases and documents (2020) (0)
Guidance by Chemotaxis (2013) (0)
Human iPSC-derived renal organoids engineered to report oxidative stress can predict drug-induced toxicity (2022) (0)
5. Synthetic biology for engineering (2018) (0)
Closure of Holes (2013) (0)
The inter-dependence of basic and applied biomedical sciences: Lessons from kidney development and tissue-engineering. (2017) (0)
Overview of Biomimetic Alternatives (2012) (0)
O7‐1: Structural differentiation of the spike glycoprotein from SARS‐CoV‐2 COVID‐19 variants of concern compared to other human‐infecting coronaviruses: A computational study with clinical implications (2021) (0)
Production of kidney organoids arranged around single ureteric bud trees, and containing endogenous blood vessels, solely from embryonic stem cells (2022) (0)
Glycosaminoglycans: important modulators of developmental signalling (2003) (0)
Chapter 20 – Epithelial Branching (2013) (0)
A new project to capture antimalarial drugs, leads and targets in the IUPHAR/BPS Guide to PHARMACOLOGY (GtoPdb) (2018) (0)
Condensation of Cells (2013) (0)
Data supporting Martin et al (2017) "Symmetry-breaking in branching epithelia..." (2017) (0)
Explorer Cell Biology of Ureter Development (2017) (0)
Chapter 28 – Conclusions and Perspectives (2013) (0)
Introducing blood flow in kidney explants by engraftment onto the chick chorioallantoic membrane is not sufficient to induce arterial smooth muscle cell development (2022) (0)
Kidney vascularisation reviews - summary table (2018) (0)
Introduction: The Aims and Structure of This Book (2013) (0)
GUDMAP – An Online GenitoUrinary Resource (2009) (0)
Chapter 19 – Epithelial Fusion (2013) (0)
07-P023 GUDMAP – An online genitourinary resource (2009) (0)
Cooperative Migration of Mesenchymal Cells (2013) (0)
Practical guide to developmental biology (2004) (0)
Edinburgh Research Explorer Engineering pattern formation and morphogenesis (2020) (0)
09-P034 The multiple roles of Wt1 and Wnt signalling in kidney development and tumorigenesis (2009) (0)
1. Biology: from analysis to synthesis (2018) (0)
Multi-fragment and multi-site recombinase-mediated cassette exchange in mouse ES-cells for F0-generation mice (2011) (0)
Asymmetric BMP4 signalling improves the realism of kidney organoids (2017) (0)
Invagination and Evagination: The Making and Shaping of Folds and Tubes (2013) (0)
Segmentation and Neuronal Development in Vertebrate Embryos (1990) (0)
Neighbour Exchange and Convergent Extension (2013) (0)
An open-access tool for designing drug control into engineered proteins (2018) (0)
Branching morphogenesis in the mammalian kidney (2005) (0)
Computational Methods and Bioinformatic Tools (2004) (0)
Fetal Organ Culture (2012) (0)

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Other Resources About Jamie A. Davies

en.wikipedia.org

What Schools Are Affiliated With Jamie A. Davies?

Jamie A. Davies is affiliated with the following schools:

University of Edinburgh