Athel Cornish-Bowden

Athel Cornish-Bowden's AcademicInfluence.com Rankings

Biology

#3668

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#5577

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Biochemistry

#443

World Rank

#524

Historical Rank

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Biology

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According to Wikipedia, Athel Cornish-Bowden is a British biochemist known for his numerous textbooks, particularly those on enzyme kinetics and his work on metabolic control analysis. Education and career Athel Cornish-Bowden worked on pepsin catalysis. This began a life long pursuit of work on enzyme catalysis and in later years work on the control of metabolism. More recently he has also turned his attention to work related to the origin and nature of life.

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Athel Cornish-Bowden'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 systems biology markup language (SBML): a medium for representation and exchange of biochemical network models (2003) (3236)
Fundamentals of Enzyme Kinetics (1979) (1660)
The direct linear plot. A new graphical procedure for estimating enzyme kinetic parameters. (1974) (1366)
A simple graphical method for determining the inhibition constants of mixed, uncompetitive and non-competitive inhibitors. (1974) (808)
Nomenclature for incompletely specified bases in nucleic acid sequences: recommendations 1984. (1985) (585)
Principles of enzyme kinetics (1976) (530)
Statistical considerations in the estimation of enzyme kinetic parameters by the direct linear plot andother methods. (1974) (324)
Evolution and regulatory role of the hexokinases. (1998) (283)
Control of Metabolic Processes (1990) (256)
Regulating the cellular economy of supply and demand (2000) (239)
Concentration of MgATP2- and other ions in solution. Calculation of the true concentrations of species present in mixtures of associating ions. (1976) (237)
Enthalpy—entropy compensation: a phantom phenomenon (2002) (195)
Analysis of enzyme kinetic data (1995) (177)
Control analysis of metabolic systems (1985) (169)
Diagnostic uses of the Hill (Logit and Nernst) plots. (1975) (159)
Relationships between inhibition constants, inhibitor concentrations for 50% inhibition and types of inhibition: new ways of analysing data. (2001) (159)
Estimation of Michaelis constant and maximum velocity from the direct linear plot. (1978) (159)
Quantitative assessment of regulation in metabolic systems. (1991) (150)
The reversible Hill equation: how to incorporate cooperative enzymes into metabolic models (1997) (139)
Organizational invariance and metabolic closure: analysis in terms of (M,R) systems. (2006) (138)
Why is uncompetitive inhibition so rare? (1986) (134)
Unity in diversity? (1984) (125)
Understanding the regulation of aspartate metabolism using a model based on measured kinetic parameters (2009) (122)
The kinetics of coupled enzyme reactions. Applications to the assay of glucokinase, with glucose 6-phosphate dehydrogenase as coupling enzyme. (1974) (117)
Kinetics of rat liver glucokinase. Co-operative interactions with glucose at physiologically significant concentrations. (1976) (111)
Kinetic evidence for a 'mnemonical' mechanism for rat liver glucokinase. (1977) (108)
A weak link in metabolism: the metabolic capacity for glycine biosynthesis does not satisfy the need for collagen synthesis (2009) (103)
Co-operative and allosteric enzymes: 20 years on. (1987) (103)
Technological and Medical Implications of Metabolic Control Analysis (2000) (99)
The origins of enzyme kinetics (2013) (98)
Taking enzyme kinetics out of control; putting control into regulation. (1993) (98)
The use of the direct linear plot for determining initial velocities. (1975) (98)
Strategies for Manipulating Metabolic Fluxes in Biotechnology (1995) (93)
One hundred years of Michaelis–Menten kinetics☆ (2015) (93)
Purification and properties of nitrite reductase from Escherichia coli K12. (1978) (87)
From L'Homme Machine to metabolic closure: steps towards understanding life. (2011) (87)
Co-operativity in monomeric enzymes. (1987) (76)
The effect of natural selection on enzymic catalysis. (1976) (76)
Co-response analysis: a new experimental strategy for metabolic control analysis. (1996) (72)
The nature of experimental error in enzyme kinetic measurments. (1975) (72)
The competition plot: a simple test of whether two reactions occur at the same active site. (1993) (72)
The pH-dependence of pepsin-catalysed reactions. (1969) (71)
Beyond reductionism: Metabolic circularity as a guiding vision for a real biology of systems (2007) (71)
Evaluation of distribution-free confidence limits for enzyme kinetic parameters. (1978) (69)
The purification in high yield and characterization of rat hepatic glucokinase. (1976) (68)
Vitamin A and retinoids. (1995) (68)
An automatic method for deriving steady-state rate equations. (1977) (67)
Prosthetic groups of the NADH-dependent nitrite reductase from Escherichia coli K12. (1981) (67)
Assessment of protein sequence identity from amino acid composition data. (1977) (65)
Commemorating the 1913 Michaelis–Menten paper Die Kinetik der Invertinwirkung: three perspectives (2014) (65)
[9] Relating proteins by amino acid composition (1983) (64)
Prospects for Antiparasitic Drugs (1998) (63)
A Simple Self-Maintaining Metabolic System: Robustness, Autocatalysis, Bistability (2010) (63)
Standards for Reporting Enzyme Data: The STRENDA Consortium: What it aims to do and why it should be helpful (2014) (61)
Characteristics necessary for an interconvertible enzyme cascade to generate a highly sensitive response to an effector. (1989) (60)
From genome to cellular phenotype—a role for metabolic flux analysis? (2000) (59)
Fitting of enzyme kinetic data without prior knowledge of weights. (1981) (59)
Understanding allosteric and cooperative interactions in enzymes (2014) (59)
Critical values for testing the significance of amino acid composition indexes. (1980) (57)
Closure to efficient causation, computability and artificial life. (2010) (56)
How reliably do amino acid composition comparisons predict sequence similarities between proteins? (1979) (55)
Putting the Systems Back into Systems Biology (2006) (55)
Understanding the parts in terms of the whole (2004) (54)
Introduction to enzyme kinetics (1976) (53)
Recommendations for terminology and databases for biochemical thermodynamics. (2011) (52)
MetaModel: a program for modelling and control analysis of metabolic pathways on the IBM PC and compatibles (1991) (49)
A general method for the quantitative determination of saturation curves for multisubunit proteins. (1970) (48)
The quaternary structure of proteins composed of identical subunits. (1971) (47)
Self-organization at the origin of life. (2008) (47)
Information transfer in metabolic pathways (2001) (46)
Current IUBMB recommendations on enzyme nomenclature and kinetics (2014) (45)
Systems biology may work when we learn to understand the parts in terms of the whole. (2005) (43)
The role of stoichiometric analysis in studies of metabolism: an example. (2002) (42)
Functional genomics: Silent genes given voice (2001) (40)
The influence of binding domains on the nature of subunit interactions in oligomeric proteins. Application to unusual kinetic and binding patterns. (1970) (40)
Isotope-exchange evidence for an ordered mechanism for rat-liver glucokinase, a monomeric cooperative enzyme. (1981) (39)
Detection of errors of interpretation in experiments in enzyme kinetics. (2001) (39)
Failure of channelling to maintain low concentrations of metabolic intermediates. (1991) (39)
Information transfer in metabolic pathways. Effects of irreversible steps in computer models. (2001) (38)
The threat from creationism to the rational teaching of biology. (2007) (37)
Channelling can affect concentrations of metabolic intermediates at constant net flux: artefact or reality? (1993) (37)
Dominance is not inevitable. (1987) (37)
Life before LUCA. (2017) (37)
Determination of control coefficients in intact metabolic systems. (1994) (35)
Mechanistic origin of the sigmoidal rate behaviour of rat liver hexokinase D ('glucokinase'). (1986) (34)
The analysis of kinetic data in biochemistry. A critical evaluation of methods (1976) (33)
Contrasting theories of life: Historical context, current theories. In search of an ideal theory (2019) (32)
Metabolic Control Analysis in Theory and Practice (1995) (31)
Specificity of non-Michaelis-Menten enzymes: necessary information for analyzing metabolic pathways. (2010) (31)
Evaluation of rate constants for enzyme-catalysed reactions by the jackknife technique. Application to liver alcohol dehydrogenase. (1978) (30)
Isotope-exchange evidence that glucose 6-phosphate inhibits rat-muscle hexokinase II at an allosteric site. (1983) (30)
Kinetics of nitrogenase of Klebsiella pneumoniae. Heterotropic interactions between magnesium-adenosine 5'-diphosphate and magnesium-adenosine 5'-triphosphate. (1977) (30)
Simulating a Model of Metabolic Closure (2013) (28)
Estimation of the dissociation constants of enzyme-substrate complexes from steady-state measurements. Interpretation of pH-independence of Km. (1976) (28)
Complex networks of interactions connect genes to phenotypes. (2001) (28)
Glucokinase: A Monomeric Enzyme with Positive Cooperativity (2004) (28)
STRENDA DB: enabling the validation and sharing of enzyme kinetics data (2018) (28)
Kinetics of the hydrolysis of N-benzoyl-L-serine methyl ester catalysed by bromelain and by papain. Analysis of modifier mechanisms by lattice nomography, computational methods of parameter evaluation for substrate-activated catalyses and consequences of postulated non-productive binding in bromelai (1974) (28)
The importance of uniformity in reporting protein-function data. (2005) (27)
Organizational Invariance in (M,R)‐Systems (2007) (27)
Robust regression of enzyme kinetic data. (1986) (27)
Kinetics of membrane-bound nitrate reductase A from Escherichia coli with analogues of physiological electron donors--different reaction sites for menadiol and duroquinol. (1997) (26)
Metabolic analysis in drug design. (2003) (25)
Enzyme specificity: its meaning in the general case. (1984) (24)
Activation of nitrite reductase from Escherichia coli K12 by oxidized nicotinamide-adenine dinucleotide. (1978) (24)
A large-scale protein-function database. (2010) (23)
Viability Conditions for a Compartmentalized Protometabolic System: A Semi-Empirical Approach (2012) (23)
Control of Enzyme Activity (1976) (22)
Analysis and interpretation of enzyme kinetic data (2014) (22)
IUPAC-IUB Joint Commission on Biochemical Nomenclature (JCBN). Nomenclature and symbolism for amino acids and peptides. Recommendations 1983. (1984) (21)
The steady-state kinetics of the NADH-dependent nitrite reductase from Escherichia coli K 12. Nitrite and hydroxylamine reduction. (1981) (20)
The random character of protein evolution and its effects on the reliability of phylogenetic information deduced from amino acid sequences and compositions. (1980) (20)
Metabolic control therapy and biochemical systems theory: different objectives, different assumptions, different results. (1989) (20)
The pursuit of perfection (2004) (20)
Interpretation of amino acid compositions (1981) (19)
Response coefficients of interconvertible enzyme cascades towards effectors that act on one or both modifier enzymes. (1992) (19)
Making systems biology work in the 21st century (2005) (19)
The rate-determining step in pepsin-catalysed reactions, and evidence against an acyl-enzyme intermediate. (1969) (19)
The stereochemical course of phosphoryl transfer catalysed by glucokinase. (1982) (19)
Kinetic Studies of a Soluble αβ Complex of Nitrate Reductase A from Escherichia Coli (1995) (19)
The pH dependence of the apparent equilibrium constant, K', of a biochemical reaction. (1993) (18)
Hidden Concepts in the History and Philosophy of Origins-of-Life Studies: a Workshop Report (2019) (18)
Mechanism of liver glucokinase (1982) (18)
Inhibitors and activators (1976) (18)
Basic mathematics for biochemists (1981) (17)
(M, R) Systems and RAF Sets - Common Ideas, Tools and Projections (2010) (17)
Evolution of Negative Cooperativity in Glutathione Transferase Enabled Preservation of Enzyme Function* (2016) (17)
Hexokinase and 'glucokinase' in liver metabolism. (1991) (17)
Chapter 2 – Introduction to enzyme kinetics (1979) (16)
Silent genes given voice (2001) (16)
Relating proteins by amino acid composition. (1983) (16)
A Self-referential Equation, f(f) = f, Obtained by Using the Theory of (M,R) Systems: Overview and Applications. (2005) (16)
Allosteric character of the inhibition of rat-muscle hexokinase B by glucose 6-phosphate. (1986) (15)
Enzymes in context: Kinetic characterization of enzymes for systems biology (2005) (15)
Systems biology: Metabolic balance sheets (2002) (15)
The physiological significance of negative cooperativity revisited. (2013) (15)
Basic Principles of Chemical Kinetics (1976) (15)
The physiological significance of negative co-operativity☆ (1975) (15)
Validity of a 'steady-state' treatment of inactivation kinetics. (1979) (15)
Thermodynamic aspects of glycolysis (1981) (15)
Enthalpy–entropy compensation and the isokinetic temperature in enzyme catalysis (2017) (15)
Eukaryotic genes: Are introns structural elements or evolutionary debris? (1985) (14)
Robust Estimation in Enzyme Kinetics (1981) (14)
Rosennean Complexity and its relevance to ecology (2017) (14)
Computer Simulation as A Tool for Studying Metabolism and Drug Design (2000) (14)
Metabolic efficiency: is it a useful concept? (1983) (13)
Advantages and disadvantages of aggregating fluxes into synthetic and degradative fluxes when modelling metabolic pathways. (1999) (13)
Size matters: influence of stochasticity on the self-maintenance of a simple model of metabolic closure. (2012) (13)
Biochemical Evolution: The Pursuit of Perfection (2016) (13)
Estimation of Rate Constants (1976) (13)
Two-substrate reactions (1979) (13)
Kinetics of hexokinase D ('glucokinase') with inosine triphosphate as phosphate donor. Loss of kinetic co-operativity with respect to glucose. (1987) (13)
Interpretation of the difference index as a guide to protein sequence identity. (1978) (13)
Nomenclature and symbols for folic acid and related compounds (Recommendations 1986) (1987) (13)
Tibor Gánti and Robert Rosen: Contrasting approaches to the same problem. (2015) (13)
Irreversible reactions in metabolic simulations : how reversible is irreversible ? (2000) (13)
Kinetics of Multi‐Enzyme Systems (2001) (12)
The amino acid compositions of proteins are correlated with their molecular sizes. (1983) (12)
Dynamics of Biochemical Systems (1984) (12)
The pre-eminence of k(cat) in the manifestation of optimal enzymic activity delineated by using the Briggs-Haldane two-step irreversible kinetic model. (1976) (12)
Generalization of the double-modulation method for in situ determination of elasticities. (1997) (12)
Enzyme kinetics from a metabolic perspective. (1999) (11)
Analysis of progress curves in enzyme kinetics. (1972) (11)
Chapter 1 – Basic principles of chemical kinetics (1979) (11)
Chapter 5 – Inhibitors and activators (1979) (11)
Chapter 8 – Control of enzyme activity (1979) (11)
The IUBMB Recommendations on Symbolism and Terminology in Enzyme Kinetics (2007) (10)
Victor Henri: 111 years of his equation. (2014) (10)
Synergy between verapamil and other multidrug-resistance modulators in model membranes (2007) (10)
Solvent isotope effects on the glucokinase reaction. Negative co-operativity and a large inverse isotope effect in 2H2O. (1984) (10)
Electron-spin-resonance studies of the NADH-dependent nitrite reductase from Escherichia coli K12. (1982) (10)
THE DETERMINATION OF BARLEY α‐AMYLASE ACTIVITY (1979) (9)
Extending double modulation: combinatorial rules for identifying the modulations necessary for determining elasticities in metabolic pathways. (1996) (9)
The time dimension in steady-state kinetic: A simplified representation of control coefficients (1987) (9)
How far has it come?: Systems Biology (2011) (9)
Enzyme specificity in reactions of more than one co-substrate. (1993) (8)
A century of Michaelis--Menten kinetics. Introduction. (2013) (8)
Effects of irreversible steps in computer models (2001) (8)
Revision of enzyme nomenclature: Listing enzymes: Nomenclature Committee of the International Union of Biochemistry (1984) (8)
Analysis of Progress Curves (1976) (8)
Phenetic methods of classification use information that is disregarded by minimum-length methods (1983) (8)
Purification and Properties of Nitrite Reductase from Escherichia coli K 12 (2005) (8)
Effect of glycerol on glucokinase activity: loss of cooperative behavior with respect to glucose. (1985) (8)
The steady state kinetics of the NADH-dependent nitrite reductase from Escherichia coli K12. The reduction of single-electron acceptors. (1982) (8)
The amino acid sequences of the copper/zinc superoxide dismutases from swordfish and Photobacter leiognathi confirm the predictions made from the compositions. (1985) (7)
Kinetic studies of a soluble alpha beta complex of nitrate reductase A from Escherichia coli. Use of various alpha beta mutants with altered beta subunits. (1995) (7)
Convergent evolution of lysozyme sequences? (1988) (7)
Properties Needed for the Enzymes of an Interconvertible Cascade to Generate a Highly Sensitive Response (1990) (7)
Are introns structural elements or evolutionary debris? (1985) (7)
Related genes can have unrelated introns (1982) (6)
Isotope-exchange evidence for allosteric regulation of hexokinase II by glucose 6-phosphate and for an obligatory addition of substrates. (1981) (6)
A comparative study of the extracellular glucosyl- and fructosyltransferases from cariogenic and non-cariogenic Streptococcus mutans strains of two different serotypes. (1986) (6)
Towards a Mechanism for Pepsin (1970) (6)
Two centuries of catalysis (1998) (5)
History of Enzyme Chemistry (2011) (5)
Biochemistry: Curbing the excesses of low demand (2013) (5)
Measurement of flux ratios as a probe of enzyme mechanisms (1981) (5)
Very large response coefficients in interconvertible enzyme cascades. (1990) (5)
Biochemistry and evolutionary biology: Two disciplines that need each other (2014) (5)
Understanding regulation of aspartate metabolism with a model based on measured kinetic parameters (2009) (5)
Mathematical Modelling of Dynamic Biological Systems, 2nd Edition (1986) (5)
Lynn Margulis and the origin of the eukaryotes. (2017) (5)
Understanding enzymes (2nd edition): by Trevor Palmer, Ellis Horwood, 1985. £13.75 (411 pages) ISBN 0 85312 874 X (1986) (4)
Abrupt transitions in kinetic plots: an artifact of plotting procedures. (1988) (4)
Estimation of kinetic constants (1979) (4)
Analytical kinetic modeling: a practical procedure. (2014) (4)
The Nature and Role of Theory in Metabolic Control (1990) (4)
Introduction: Enzyme catalysis and allostery: a century of advances in molecular understanding (2014) (4)
Henrik Kacser (1918-1995): an annotated bibliography. (1996) (4)
Different Contributions of the Various Isoenzymes to the Flux in the Aspartate-derived Amino Acid Pathway in Arabidopsis thaliana (2010) (4)
Professor Robert A. Alberty--a legacy of excellence. (2010) (4)
ENZYME KINETICS FROM A METABOLIC PERSPECTIVE (1999) (4)
Parameter estimating procedures for the Michaelis-Menten model: reply to Tseng and Hsu. (1991) (4)
Validity of the jack-knife technique for analysing enzyme kinetic data. (1980) (4)
The definition of ‘peptidase’ (1985) (3)
Nonequilibrium isotope exchange methods for investigating enzyme mechanisms. (1989) (3)
A Control Analysis of Metabolic Regulation (1993) (3)
Introduction (3)
Nomenclature of prenols (Recommendations 1986) (1987) (3)
Subunit interactions in pig-kidney fructose-1,6-bisphosphatase: binding of substrate induces a second class of site with lowered affinity and catalytic activity. (2014) (3)
Quo Vadis, enzymology data? Introductory remarks☆ (2014) (3)
Molecular biology: No introns in insect globin genes (1984) (3)
The essence of life revisited: how theories can shed light on it (2021) (3)
Evaluation of the non-randomness of protein compositions (1977) (3)
Modulation of Metabolite Concentrations with no Net Effect on Fluxes (2004) (3)
Rat-Liver Glucokinase as a Mnemonical Enzyme (1984) (3)
Metabolic closure in (M,R) systems (2016) (3)
Stoicheiometric analysis in studies of metabolism. (2001) (3)
Zacharias Dische and the discovery of feedback inhibition: A landmark paper published in the forerunner of Biochimie. (2020) (2)
Metabolic Analysis in Drug Discovery (2000) (2)
Why are enzymes so small? or why do biochemists ask ‘why are enzymes so big?’ (1986) (2)
Algebraic methods for deriving steady-state rate equations. Practical difficulties with mechanisms that contain repeated rate constants. (1976) (2)
Rounding error, an unexpected fault in the output from a recording spectrophotometer: implications for model discrimination. (1993) (2)
HANDLING EQUILIBRIUM PROCESSES EMBEDDED IN METABOLIC SYSTEMS (2003) (2)
Enzyme kinetics calculations - The direct linear plot procedure (1984) (2)
Mammalian hexokinases: a system for the study of co-operativity in monomeric enzymes. (1979) (2)
How much effect on free metabolite concentrations does channelling have? (1991) (2)
Reinhart Heinrich (1946-2006): an annotated bibliography. (2008) (2)
Unusual solvent isotope effects on the glucokinase reaction (1982) (2)
Book review: Monkey Trials and Gorilla Sermons: Evolution and Christianity from Darwin to Intelligent Design (2008) (2)
Enthalpy–Entropy Compensation as Deduced from Measurements of Temperature Dependence (2012) (2)
Nomenclature and Symbols for Folic Acid and Related Compounds. Recommendations 1986. (1987) (2)
Chapter 7 – Effects of pH and temperature on enzymes (1979) (2)
PROSPECTS FOR PHARMACOLOGICAL MANIPULATION OF METABOLISM (2014) (2)
Book reviewEnzyme kinetics, 2nd edition: By Paul C. Engel. Pp. 96. Chapman & Hall, London. 1981. Paperback £2.45 (1983) (2)
Cooperation in the abstract (1986) (1)
5 – Reaction Pathways (1976) (1)
Cooperative Phenomena in Yeast Glyceraldehyde-3-Phosphate Dehydrogenase (1970) (1)
Effects of pH and Temperature on Enzymes (1976) (1)
The prediction of repetitive protein sequences from amino acid compositions: a comment (1984) (1)
Chapter 4 – How to derive steady-state rate equations (1979) (1)
The nature of enzymology: By R L Foster. pp 383. Croom Helm, London. 1980. Hardback £19.95; paperback £9.95 ISBN 0‐856‐64434‐X and 0‐856‐64915‐5 (1980) (1)
METABOLIC ANALYSIS IN DRUG DESIGN : COMPLEX , OR JUST COMPLICATED ? (2014) (1)
Significance of the purine-pyrimidine motif present in most gene groups. (1988) (1)
9 – Fast Reactions (1976) (1)
Cornish-Bowden and Cárdenas reply (1992) (1)
CAN WE AGREE ON METABOLIC CONTROL (1985) (1)
Kinetic implications of metabolite channelling in beta-oxidation. (1994) (1)
Mathematical description of regulation in metabolic systems: the regulatory potential (1995) (1)
Cooperative Phenomena in Biology: Edited by George Karreman. p 246. Pergamon Press, New York. 1980. $45 ISBN 0-08-023186-1 (1981) (1)
Amino acid compositions provide a reliable guide to sequence similarities. (1978) (1)
The role of stoicheiometric analysis in studies of metabolism (2002) (1)
Terminology for sialic acids. (1983) (1)
Chapter 3 – Practical considerations (1979) (1)
The Nomenclature Committee of the IUBMB comment. (1996) (1)
Thermodynamic network analysis of biological systems (second edition): by J Schnakenberg. pp 149. Springer-Verlag, Berlin. 1981. DM 43 (1982) (1)
Bringing Chemistry to Life : What does it Mean to be Alive ? (2007) (1)
Time flies like an arrow: Fruit flies like a banana (2015) (1)
Encyclopaedic enzyme kinetics: Enzyme Kinetics: Behavior and Analysis of Rapid Equilibrium and Steady-State Enzyme Systems by Irwin H. Segel, Wiley, 1993 (reprint of 1975 edition). £39.95 (957 pages) ISBN 0 471 30309 7 (1994) (0)
Number 3 in the Enzymes dynasty (1980) (0)
Vertical integration from “ omics ” to whole organism (2017) (0)
Simulating a Model of Metabolic Closure (2013) (0)
Biochemistry and evolutionary biology: Two disciplines that need each other (2014) (0)
Abstracts from the 3rd Conference on Aneuploidy and Cancer: Clinical and Experimental Aspects (2017) (0)
Dedications to Paul Srere (2002) (0)
Evolution of Henrik Kacser's thought: Early publications on the organization of the whole system. (2023) (0)
Solvent isotope effects on the hexokinase D reaction: evidence for the mnemonical interpretation of the kinetic co-operativity. (1985) (0)
Kinetic studies of a soluble up complex of nitrate reductase A from Escherichia coli Use of various ap mutants with altered p subunits (2004) (0)
Problems in defining limits : how slow is very slow ? (0)
Professor Robert Arnold Alberty (1921–2014) (2014) (0)
Allosteric enzymes: Kinetic behaviour. B. I. Kurganov. John Wiley and Sons, £29.95, ISBN 0 471 10195 8, 1982 (Translated from Russian by R. F. Brookes) (1983) (0)
Enthalpy–entropy compensation and the isokinetic temperature in enzyme catalysis (2017) (0)
Chapter 9 – Fast reactions (1979) (0)
Catastrophe, chaos and delay (1984) (0)
Enzymes (benchmark papers in biochemistry, vol. 1): edited by Herbert C. Friedmann, Hutchinson, Ross (distributed by Academic Press), 1981. $68.00/£45.00 (xx + 716 pages) ISBN 0 87933 367 7 (1982) (0)
Saturation functions as a nested set. (1988) (0)
ROBUST ESTIMATION OF ENZYME KINETIC PARAMETERS (1981) (0)
Horizons in biochemistry and biophysics. Volume 5: Edited by E. Quagliarello, F. Palmieri and T.P. Singer. Pp. 321. Addison‐Wesley Publishing Company Advanced Book Program, Reading, Mass. 1978. Hardback $22.50 (1979) (0)
Teaching Enzyme Kinetics and Mechanism in the 21 st Century (2008) (0)
in defining how is very (2005) (0)
Fitting ofenzymekinetic datawithout prior knowledge ofweights (1981) (0)
Kinetic implications of metabolite channelling in / ?-oxidation (0)
Abstracts from the 3rd Conference on Aneuploidy and Cancer: Clinical and Experimental Aspects (2017) (0)
Validity oftheJack-knife Technique forAnalysing EnzymeKinetic Data (1980) (0)
Entropy – enthalpy compensation as deduced from measurements of temperature dependence (2014) (0)
MECHANISTIC STUDIES OF RAT MUSCLE HEXOKINASE II (1981) (0)
Quantitative Aspects of Allosteric Mechanisms.Alexander Levitzki (1979) (0)
How to Derive Steady-State Rate Equations (1976) (0)
Metabolic complexity has no bearing on genetic determinism (1999) (0)
Biochemistry textbooks: are they getting better? (2007) (0)
Corrigendum to “Closure to efficient causation, computability and artificial life” [J. Theor. Biol. 263 (2010) 79–92] (2011) (0)
The bioorganic chemistry of enzymatic catalysis : M.L. Bender, R.J. Bergeron and M. Komiyama Wiley-Interscience; New York, 1984 xiii + 312 pages. £42.00 (1985) (0)
From H B F Dixon and A Cornish‐Bowden: Listing enzymes (1983) (0)
How I became a biochemist (2010) (0)
Reflections on Energy Conversion in Biological and Biomimetic Systems (2011) (0)
Integrated enzymes (1982) (0)
Editorial Board (2003) (0)
Revision of Enzyme Nomenclature (1983) (0)
Exponents and Logarithms (1981) (0)
The essence of life revisited: how theories can shed light on it (2021) (0)
Book reviews (1997) (0)
A curve-fitting procedure for the study of the binding of small molecules to multi-subunit proteins. (1970) (0)
The regulation of cellular systems by Reinhart Heinrich and Stefan Schuster, Chapman and Hall, New York, 1996. £l45.00/$89.95 (cloth), 372 pp. (1997) (0)
Of the making of books: Biochemistry textbooks: are they getting better? (2007) (0)
Boris Goldstein and the Derivation of Steady-State Rate Equations ∗ (2014) (0)
Monitoring the energy status of a living organism in real time (2008) (0)
Metabolic efflciency : Is it a useful concept ? (2014) (0)
The Language of Mathematics (1981) (0)
The enzymes, volume 19: Mechanisms of catalysis, 3rd edition : Edited by D.S. Sigman and P.D. Boyer; Academic Press, San Diego, 1990; ix + 459 pages; $99.00 (1992) (0)
Maud Leonora Menten: A woman at the dawn of biochemistry (2013) (0)
Letter: The physiological significance of negative co-operativity. (1975) (0)
Vadis , enzymology data ? (2014) (0)
Understanding the control of metabolism: by David Fell, Portland Press, 1997. £18.95/US$32.20 (301 pages) ISBN 1 855 78047 X (1997) (0)
A solid account of enzymes (2000) (0)
Application of book-keeping principles to metabolic networks provides a powerful technique for understanding the properties of microorganisms and predicting the results of genetic modification (0)
How reality do amino acid composition comparisons predict sequence similarities between proteins?: J. theor. Biol. (1979) 76, 369–386 (1979) (0)
Making sense of the cellular economy and its regulation: a framework for biotechnological manipulation (2000) (0)
TheRate-Determining StepinPepsin-Catalysed Reactions, andEvidence against anAcyl-Enzyme Intermediate (1969) (0)

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