Super Biochemistry--unit 301-350

301: Structure of Elongation Factor Tu.

302: Translation Initiation in Prokaryotes.

303: A Ribosome Is a Ribonucleoprotein Particle (70S) Made of a Small (30S) and a Large (50S) Subunit

304: Allowed pairings at the third base of the codon according to the wobble hypothesis

305: A Role for Formylation.

306: Peptide-Bond Formation.

307: Mechanism of Protein Synthesis.

308: Polypeptide Escape Path.

309: Transfer RNA-Binding Sites.

310: Formylation of Methionyl-tRNA.

311: Initiation Sites.

312: Polysomes.

Molecular Motors

313: Thick Filament.

314: Myosin Motion Along Actin.

315: Watching a Single Motor Protein in Action.

316: Actin and Hexokinase.

317: Actin Structure.

318: Sliding-Filament Model.

319: Sarcomere.

320: Most Molecular-Motor Proteins Are Members of the P-Loop NTPase Superfamily

321: Effect of nucleotide binding on protein affinity

322: Neck Linker.

323: Relay Helix.

324: Lever-Arm Motion.

325: Dynein Head-Domain Model.

326: Structure of Head Domain of Kinesin at High Resolution.

327: Kinesin at Low Resolution.

328: Myosin Two-Stranded Coiled Coil.

329: Myosin Light Chains.

330: Myosin Structure at High Resolution.

331: Myosin Dissection.

332: Myosin Structure at Low Resolution.

333: The horse, like all animals, is powered by the molecular motor protein, myosin.

334: Motion Within Cells.

335: Molecular Motors

336: Problems

337: Summary

338: A Rotary Motor Drives Bacterial Motion

339: Chemotaxis Signaling Pathway.

340: Changing Direction.

341: Charting a Course.

342: Proton Transport-Coupled Rotation of the Flagellum.

343: Flagellar Motor Components.

344: Flagellar Motor.

345: Structure of Flagellin.

346: Bacterial Flagella.

347: Kinesin and Dynein Move Along Microtubules

348: Motion in Ncd.

349: Structure of Ncd.

350: Kinesin Moving Along a Microtubule.