v.1-2. Preparation and assay of enzymes.

v.3. Preparation and assay of substrates.

v.4. Special techniques for enzymologist.

v.5-6. Preparation and assay of enzymes.

v.7. General subject index.

v.8. Complex carbohydrates.

v.9. Carbohydrate metabolism.

v.10. Oxidation and phosphorylation.

v.11. Enzyme structure.

v.12. Nucleic acids. pt.A and pt.B.

v.13. Citric acid cycle.

v.14. Lipids.

v.15. Steroids and terpenoids.

v.16. Fast reactions.

v.17. Metabolism of amino acids and amines. 2 pts.

v.18. Vitamins and coenzymes.

v.19. Proteolytic enzymes.

v.20. Nucleic acids and protein synthesis. pt.C.

v.21. Nucleic acids. Pt.D.

v.22. Enzyme purification and related techniques.

v.23. Photosynthesis. pt.A.

v.24. Photosynthesis and nitrogen fixation. pt.B.

v.25. Enzyme structure. pt.D.

v.28. Complex carbohydrates. pt.B.

v.29. Nucleic acids and protein synthesis. pt.E.

v.30. Nucleic acids and protein synthesis. pt.F.

v.31. Biomembranes. pt.A.

v.32. Biomembranes. pt.B.

v.33. Cumulative subject index: volumes 1-30.

v.34. Affinity techniques. Enzyme purification: pt.B.

v.35. Lipids. pt.B.

v.36. Hormone action. pt.A: steroid hormones.

v.37. Hormone action. pt.B: peptide hormones.

v.38. Hormone action. pt.C: cyclic nucleotides.

v.39. Hormone action. pt.D: isolated cells, tissues, and organ systems.

v.40. Hormone action. pt.E: nuclear structure and function.

v.41. Carbohydrate metabolism. pt.B.

v.42. Carbohydrate metabolism. pt.C.

v.43. Antibiotics.

v.44. Immobilized enzymes.

v.45. Proteolytic enzymes. pt.B.

v.46. Affinity labeling.

v.47. Enzyme structure. pt.E.

v.48. Enzyme structure. pt.F.

v.49. Enzyme structure. pt.G.

v.50. Complex carbohydrates. pt.C.

v.51. Purine and pyrimidine nucleotide metabolism.

v.52. Biomembranes. pt.C: Biological oxidations. Microsomal, cytochrome P-450, and other hemoprotein systems.

v.53. Biomembranes. pt.D: Biological oxidations. Mitochondrial and microbial systems.

v.54. Biomembranes. pt.E: Biological oxidations. Specialized techniques.

v.55. Biomembranes pt.F: Bioenergetics-Oxidative phosphorylation.

v.56. Biomembranes. pt.G: Bioenergetics: Biogenesis of mitochondria, organization, and transport.

v.57. Bioluminescence and chemiluminescence.

v.58. Cell culture.

v.59. Nucleic acids and protein synthesis. pt.G.

v.60. Nucleic acids and protein synthesis. pt.H.

v.61. Enzyme structure. pt.H.

v.62. Vitamins and coenzymes. pt.D.

v.63. Enzyme kinetics and mechanism. pt.A.

v.64. Enzyme kinetics and mechanism. pt.B.

v.65. Nucleic acids. pt.I.

v.66. Vitamins and coenzymes. pt.E.

v.67. Vitamins and coenzymes, pt.F.

v.68. Recombinant DNA.

v.69. Photosynthesis and nitrogen fixation, pt.C.

v.70. Immunochemical techniques, pt.A.

v.71. Lipids. pt.C.

v.72. Lipids. pt.D.

v.73. Immunochemical techniques. pt.B.

v.74. Immunochemical techniques, pt.C.

v.75. Cumulative subject index volumes 31, 32, 33-60.

v.76. Hemoglobins.

v.77. Detoxication and drug metabolism; conjugation and related systems.

v.78. Interferons. pt.A.

v.79. Interferons. pt.B.

v.80. Proteolytic enzymes. pt.C.

v.81. Biomembranes pt.H.

v.82. Structural and contractile proteins. pt.A.

v.83. Complex carbohydrates. pt.D.

v.84. Immunochemical techniques. pt.D.

v.85. Structural and contractile proteins.

v.86. Prostaglandins and Arachidonate Metabolites.

v.87. Enzyme kinetics and mechanism. pt.C.

v.88. Biomembranes, pt.1, Visual pigments and purple membranes, II.

v.89. Carbohydrate metabolism, pt.D.

v.90. Carbohydrate metabolism, pt.E.

v.91. Enzyme structure, pt.I.

v.92. Immunochemical techniques, pt.E. Monoclonal antibodies and general immunoassay methods.

v.93. Immunochemical techniques, pt.F. Conventional antibodies, Fc receptors, and cytotoxicity.

v.94. Polyamines.

v.95. Cumulative subject index, volumes 61-74, 76-80.

v.96. Biomembranes, pt.J. Membrane biogenesis; assembly and targeting (general methods, eukaryotes).

v.97. Biomembranes, pt.K. Membrane biogenesis; assembly and targeting (prokaryotes, mitochondria, and chloroplasts).

v.98. Biomembranes, pt.L. Membrane biogenesis: processing and recycling.

v.99. Hormone action, pt.F. protein kinases.

v.100. Recombinant DNA, pt.B.

v.101. Recombinant DNA, pt.C.

v.102. Hormone action, pt.G. Colmodulin and calcium-binding proteins.

v.103. Hormone action, pt.H. Neuroendocrine peptides.

v.104. Enzyme purification and related techniques, pt.C.

v.105. Oxygen radicals in biological systems.

v.106. Posttranslational modifications, pt.A.

v.107. Posttranslational modifications, pt.B.

v.108. Immunochemical techniques, pt.G. separation and characterization of lymphoid cells.

v.109. Hormone action, pt.I. Peptide hormones.

v.110. Steroids and isoprenoids, pt.A.

v.111. Steroids and isoprenoids, pt.B.

v.112. Drug and enzyme targeting, pt.A.

v.113. Glutamate, glutamine, glutathione, and related compounds.

v.114. Diffraction methods for biological macromolecules,, pt.A.

v.115. Diffraction methods for biological macromolecules, pt.B.

v.116. Immunochemical techniques, pt.H. effectors and mediators of lymphoid cell functions.

v.117. Enzyme structure.

v.118. Plant molecular biology.

v.119. Interferons, pt.C.

v.120. Cumulative subject index, vol. 81-94, 96-101.

v.121. Immunochemical techniques, pt.1. hybridoma technology and monoclonal antibodies.

v.122. Vitamins and coenzymes, pt.G.

v.123. Vitamins and coenzymes, pt.H.

v.124. Hormone action, pt.J.

v.125. Biomembranes, pt.M.

v.126. Biomembranes, pt.N.

v.127. Biomembranes, pt.O.

v.128. Plasma lipoproteins, pt.A.

v.129. Plasma lipoproteins, pt.B.

v.130. Enzyme structure, pt.K.

v.131. Enzyme structure, pt.L.

v.132. Immunochemical techniques, pt.J.

v.133. Bioluminescence and chemiluminescence, pt.B.

v.134. Structural and contractile proteins, pt.C.

v.135. Immobilized enzymes and cells, pt.B.

v.136. Immobilized enzymes and cells, pt.C.

v.137. Immobilized enzymes and cells, pt.D.

v.138. Complex carbohydrates, pt.E.

v.139. Cellular regulators, pt.A.

v.140. Cumulative subject index, vol. 102-119, 121-134.

v.141. Cellular regulators, pt.B.

v.142. Metabolism of aromatic amino acids and amines.

v.143. Sulfur and sulfur amino acids.

v.144. Structural and contractile proteins, pt.D. extracellular matrix.

v.145. Structural and contractile proteins, pt.E. extracellular matrix.

v.146. Peptide growth factors, pt.A.

v.147. Peptide growth factors, pt.B.

v.148. Plant cell membranes.

v.149. Drug and enzyme targeting.

v.150. Immunochemical techniques, pt.K. in vitro models of B and T cell functions and lymphoid cell receptors.

v.151. Molecular genetics of mammalian cells.

v.152. Guide to molecular cloning techniques.

v.153. Recombinant DNA, pt.D.

v.154. Recombinant DNA, pt.E.

v.155. Recombinant DNA, pt.F.

v.156. Biomembranes, pt.P. ATR-driven pumps and related transport: the na,K-pump.

v.157. ATR-driven pumps and related transport: calcium, proton, and potassium pumps, pt.Q.

v.158. Metallobiochemistry, pt.A.

v.159. initiation and termination of cyclic nucleotide action.

v.160. Biomass, cellulos and hemicellulose, pt.A.

v.161. Biomass, lignin, pectin, and chitin.

v.162. Immunochemical techniques, pt.L. chemotaxis and inflammation.

v.163. Immunochemical techniques, pt.M. chemotaxis and inflammation.

v.164. Ribosomes.

v.165. Microbial toxins: tools in enzymology.

v.166. Branched chain amino acids.

v.167. Cyanobacteria.

v.168. Hormone action, pt.K. neuroendocrine peptides.

v.169. Platelets: receptors, adhesion, secretion, pt.A.

v.170. Nucleosomes.

v.171. Biomembranes, pt.R. transport theory, cells and model membranes.

v.172. Biomembranes, pt.S. Transport: membrane isolation and characterization.

v.173. Biomembranes, pt.T. cellular and subcellular transport.

v.174. Biomembranes, pt.U. cellular and subcellular transport: eukaryotic (nonepithelial) cells.

v.175. Cumulative subject index, vol. 135-139, 141-167.

v.176. Nuclear magnetic resources, pt.A. spectral techniques and dynamics.

v.177. Nuclear magnetic resonance, pt.B. Structure and mechanism.

v.178. Antibodies, antigens, and molecular mimicry.

v.179. Complex carbohydrates, pt.F.

v.180. RNA processing, pt.A. general methods.

v.181. RNA processing, pt.B. specific methods.

v.182. Guide to protein purification.

v.183. Molecular evolution: computer analysis of protein and nucleic acid sequences.

v.184. Avidin-Biotin technology.

v.185. Gene expression technology.

v.186. Oxygen radicals in biological systems.

v.187. Arachidonate related lipid mediators.

v.188. Hydrocarbons and methylotrophy.

v.189. Retinoids, pt.A. molecular and metabolic aspects.

v.190. Retinoids, pt.B. cell differentiation and clinical applications.

v.191. Biomembranes, pt.V. Cellular and subcellular transport: epithelial cells.

v.192. Biomembranes, pt.W. Cellular and subcellular transport: epithelial cells.

v.193. Mass spectrometry.

v.194. Guide to yeast genetics and molecular biology.

v.195. Adenylyl cyclase, G proteins, and guanylyl cylase.

v.196. Molecular motors and the cytoskeleton.

v.197. Phospholipases.

v.198. Peptide growth factors.

v.199. Cumulative subject index, vol. 168-174, 176-194.

v.200. Protein phosphorylation, pt.A.

v.201. Protein phosphorylation, pt.B.

v.202. Molecular design and modeling: concepts and applications, pt.A. Proteins, peptides and enzymes.

v.203. Molecular design and modeling: concepts and applications, pt.B. Antibodies and antigens, nucleic acids, polysaccharides and drugs.

v.204. Bacterial genetic systems.

v.205. Metallobiochemistry, pt.B. Metallothionein and related molecules.

v.206. Cytochrome P450.

v.207. Ion channels.

v.208. Protein-DNA interactions.

v.209. Phospholipid biosynthesis.

v.210. Numerical computer methods.

v.211. DNA structures, pt.A. synthesis and physical analysis of DNA.

v.212. DNA structures, pt.B. chemical and electrophoretic analysis of DNA.

v.213. Carotenoids, pt.A. chemistry, separation, quantitation, and antioxidation.

v.214. Carotenoids, pt.B. metabolism, genetics, and biosynthesis.

v.215. Platelets: receptors, adhesion, secretion.

v.216. Recombinant DNA, pt.G.

v.217. Recombinant DNA, pt.H.

v.218. Recombinant DNA, pt.I.

v.219. Reconstitution of Intracellular Transport.

v.220. Membrane fusion techniques, pt.A.

v.221. Membrane Fusion techniques, pt.B.

v.222. Proteolytic Enzymes in coagulation, Fibrinolysis, and complement activation, pt.A.:Mammalian Blood coagulation factors and inhibitors.

v.223. Proteolytic Enzymes in coagulation, fibrinolysis, and complement activation, pt.B.: Complement activation, fibrinolysis, and Nonmammalian blood coagulation factors and inhibitors.

v.224. Molecular evolution: producing the biochemical data.

v.225. Guide to techniques in mouse development.

v.226. Metallobiochemistry, pt.C. Spectroscopic and physical methods for probing metal ion environments in metalloenzymes and metalloproteins.

v.227. Metallobiochemistry, pt.D. physical and spectroscopic methods for probing metal ion environments in metalloproteins.

v.228. Aqueous two-phase systems.

v.229. Cumulative subject index, vols. 195-198, 200-227.

v.230. Guide to techniques in glycobiology.

v.231. Hemoglobins, pt.B. Biochemical and analytical methods.

v.232. Hemoglobins, pt.C. biophysical methods.

v.233. Oxygen radicals in biological systems, pt.C.

v.234. Oxygen radicals in biological systems, pt.D.

v.235. Bacterial pathogenesis, pt.A. Identification and regulation of virulence factors.

v.236. Bacterial pathogenesis, pt.B. Interaction of pathogenic bacteria with host cells.

v.237. Heterotrimeric G-proteins.-v.238. Heterotrimeric G-Protein Effectors.-v.239. Nuclear magnetic resonance, pt.C.-v.240. Numerical computer methods, pt.B.-v.241. Retroviral Proteases.-v.242. Neoglycoconjugates, pt.A. synthesis.-v.243. Inorganic microbial sulfur metabolism.-v.244. Proteolytic enzymes, Serine and Cycsteine Peptidases.-v.245. Extracellular matrix components.-v.246. Biochemical stpectroscopy.-v.247. Neoglycoconjugates, pt.B. Biomedical applications -v.248. Proteolytic enzymes: aspartic and metallo peptidases -v.249. Enzyme kinetics and mechanism, Part D, developments in enzyme dynamics.-v.250. Lipid modifications of proteins.-v.251. Biothals, part A, Monothiols and dithiols, protein thiols, and thiyl radicals. -v.252. Biothals, pt.B; Glutathione and Thioredoxin: Thiols in signal transduction and gene regulation. -v.253. Adhesion of microbial pathogens. -v.254. Oncogene techniques. -v.255. Small gtpases and their regulators, pt.A ras family. -v.256. Small gtpases and their regulators pt.B Rho family -v.257. Small gtpases and their regulators, pt.C, proteins involved in transport -v.258. redox-active amino acids in biology -v.259. Energetics of biological macromolecules. -v.260. Mitochondrial biogenesis and genetics, pt.A. -v.261. Nuclear magnetic resonance and nucleic acids -v.262. DNA replication -v.263. Plasma lipoproteins, part C, quantitation -v.264. Mitochondrial biogenesis and genetics, pt.B -v.265. Cumulative subject index, vols. 228, 230-262 -v.266. Computer methods for macromolecular sequence analysis -v.267. Combinatorial chemistry -v.269. Nitric oxide pt.B, physiological and pathological processes -v.270. High resolution separation and analysis of biological macromolecules pt.A, fundamentals.

v.271. High resolution separation and analysis of biological macromolecules pt.B. Applications.

v.272. Cytochrome P450, pt.B.

v.273. RNA polymerase and associated factors, pt.A.

v.274. RNA polyerase and associated factors, pt.B.

v.275. Viral polymerases and related proteins.

v.276. Macromolecular crystallography, pt.A.

v.277. Macromolecular crystallography, pt.B.

v.278. Fluorescence Spectroscopy.

v.279-282. Vitamins and coenzymes, pt.I-L.

v.283. Cell cycle contro.

v.284. Lipases, pt.A. Biotechnology.

v.285. Cumulative subject index, vols. 263, 264, 266

289.

v.286. Lipases, pt.B. Enzyme characterization and utilization.

v.287. Chemokines.

v.288. Chemokine receptors.

v.289. Solid-Phase peptide synthesis.

v.290. Molecular chaperones.

v.291. Caged compounds.

v.292. ABC transporter: Biochemical, cellular, and Molecular aspects.

v.293. Ion channels, pt.B.

v.294. Ion channels, pt.C.

v. 295. Energetics of biological macromolecules, pt. B.

v.296. Neurotransmitter transporters.

v.297. Photosynthesis: molecular biology of energy capture.

v. 298. Molecular motors and the cytoskeleton, pt. B.

v.299. Oxidants and antioxidants, pt.A.

v.300. Oxidants and Antioxidants, pt.B.

v.301. Biological and antioxidant activities, pt.C.

v.302. Green fluorescent protein.

v.303. cDNA preparation and characterization.

v.304. Chromatin.

v.305. Bioluminescence and chemiluminescence, pt.C.

v.306. Expression of recombinant genes in eukaryotic systems.

v.307. Confocal microscopy.- -v.308. Enzyme kinetics and mechanism, pt.E.

v.309. Amyloid, prions, and other protein aggregates.

v.310. Biofilms.

v.311. Sphingolipid metabolism & cell signaling, pt.A.

v.312. Sphingolipid metabolism and cell signaling, pt.B.

v.313. Antisense technology, pt.A.

v.314. Antisense technology, pt.B.

v.315. Vertebrate phototransduction and the visual cycle, pt.A.

v.316. Vertebrate phototransduction and the visual cycle, pt.B.

v.317. RNA-Ligand interactions, pt.A.

v.318. RNA-Ligand interactions pt.B.

v.319. Singlet oxygen, UV-A, and ozone.

v.320. Cumulative subject index, vols.290-319.

v.321. Numerical computer methods, pt.C.

v.322. Apoptosis.

v.323. Energetics of biological macromolecules, pt.C.

v.324. Branched-chain amino acids, pt.B.

v.325. Regulators and effectors of small gtpases, pt.D Rho family.

v.326. Applications of chimeric genes and hybrid proteins, pt.A Gene expression and protein purification.

v.327. applications of chimeric genes and hybrid proteins, pt. B. Cell biology and physiology.

v.328. Applications of chimeric genes and hybrid proteins, pt.C.

v.329. Regulators and effectors of small gtpases, pt.E.

v.330. Hyperthermophilic enzymes, pt.A.

v.331. Hyperthermophilic enzymes, pt.B.

v.332. Regulators and effectors of small GTPases, pt.F.Ras family I.

v.333. Regulators and effectors of small GTPases, pt.G.Ras family II.

v.334. Hyperthermophilic enzymes, pt.C.

v.335. Flavonoids and other polyphenols.

-v.336. Microbial growth in biofilms, pt.A. Developmental and Molecular biological aspects.

v.337. Microbial growth in biofilms, pt.B.Special environments and physicochemical aspects.

v.338

339. Nuclear magnetic resonance of biological macromolecules, pt.A-B.

v.340. Drug-nucleic acid interactions.

v.341. Ribonucleases, pt.A.

v.342. Ribonucleases, pt.B.

v.343. G Protein pathways, pt.A. Receptors.

v.344. G protein pathways, pt.B. G proteins and their regulators.

v.345. G protein pathways, pt.C effector mechanisms.

v.346. Gene therapy methods.

v.347. Protein sensors and reactive oxygen species, pt. A.

v.348. Protein sensors and reactive oxygen species, pt.B.

v.349. Superoxide dismutase.

v.350. Guide to yeast genetics and molecular and cell biology, pt.B.

v.351. Guide to yeast genetics and molecular and cell biology, pt.C.

v.352-353. Redox cell biology and genetics,pt.A-B.

v.354. Enzyme kinetics and mechanism,pt.F.

v.355. Cumulative subject index,vols. 321-354.

v.356. Laser capture microscopy.

v.357. Cytochrome P450, pt.C.

v.358. Bacterial pathogenesis, pt.C.

v.359. Nitric Oxide, pt.D.

v.360. Biophotonics, pt.A.

v.361. Biophotonics, pt.B.

v.362. Recognition of carbohydrates in biological systems, pt.A.

v.363. Recognition of carbohydrates in biological systems, pt.B.

v.364. Nuclear receptors.

v.365. Differentiation of embryonic stem cells.

v.366. Protein phosphatases.

v.367. Liposomes, pt.A.

v.368. Macromolecular crystallography,pt.C.

v.369. Combinatorial chemistry,pt.B.

v.370. RNA polymerses and associated factors, pt.C.

v.371. RNA polymerases and associated factors,pt.D.

v.372. Liposomes, pt.B.

v.373. Liposomes, pt.C.

v.375. Chromatin and cromatin remodeling enzymes, pt.A.

v.376. Chromatin and chromatin remodeling enzymes, pt.B.

v.377. Chromatin and cromatin remodeling enzymes, pt.C.

v.378. Quinones and quinone enzymes, pt.A.

v.379. Energetics of biological macromolecules, pt.D.

v.380. Energetics of biological macromolecules, pt.E.

v.381. Oxygen sensing.

v.382. Quinones and quinone enzymes, pt.B.

v.383. Numerical computer methods, pt.D.

v.384. Numerical computer methods, pt.E.

v.385-v.386. Imaging in biological research, pt.A-B.

v.387. Liposomes, pt.D.

v.388. Protein engineering.

v.389. Regulators of g-protein signaling, pt.A.

v.390. Regulators of g-protein signaling, pt.B.

v.391. Liposomes, pt.E

v.392. RNA interference.

v.393. Circadian rhythms.

v.394. Nuclear magnetic resonance of biological macromolecules, pt.C.

v.395. Molecular evolution : producing the biochemical data, pt.B.

v.396. Nitric oxide, pt.E.

v.397. Environmental microbiology.

v.398. Ubiquitin and protein degradation, pt.A.

v.399. Ubiquitin and protein degradation, pt.B

v.400. Phase II conjugation enzymes and transport systems.

v.401. Glutathione transferases and gamma-glutamyl transpepidases.

v.402. Biological mass spectrometry.

v.403. GTPases regulating membrane targeting and fusion.

v.404. GTPases regulating membrane dynamics.

v.405. Mass spectrometry : modified proteins and glycoconjugates.

v.406. Regulators and effectors of small GTPases Rho family.

v.407. Regulators and effectors of small GTPases: Ras family.

v.408. DNA repair, pt.A.

v.409. DNA repair, pt.B.

v.410. DNA microarrays, pt.A.

v.411. DNA microarrays, pt.B.

v.412. Amyloid, prions, and other protein aggregates, pt.B.

v.413. Amyloid, prions, and other protein aggregates, pt.C.

v.414. Measuring biological responses with automated microscopy.

v.415. Glycobiology.

v.416. Glycomics.

v.417. Functional glycomics.

v.418. Embryonic stem cells.

v.419. Adult stem cells.

v.420. Stem cell tools and other experimental protocols.

v.421. Advanced bacterial genetics : use of transposons and phage for genomic engineering.

v.424. RNA editing.

v.425. RNA modification.

v.426. Integrins.

v.427. MicroRNA methods.

v.428. Osmosensing and osmosignaling.

v.429. Tranlsation initiation : extract systems and molecular genetics.

v.430. Translation initiation : reconstituted systems and biophysical methods.

v.431. Translation initiation : cell biology, high-throughput methods, and chemical-based approaches.

v. 432. Lipidomics and bioactive lipids: Mass-spectrometry-based lipid analysis.

v.433. Lipidomics and bioactive lipids: Specialized analytical methods and lipids in disease.

v.434. Lipidomics and bioactive lipids: lipids and cell signaling.

v.435. Oxygen biology and hypoxia.