1 / 57

BCM 410A - lecture 1

The body works at the molecular level Molecules are organized into cells Cells are organized into organs Small molecules in the body Biological macromolecules. BCM 410A - lecture 1. Drugs - ethanol Dwarfism Myocardial infarction Aspirin. Instructors: Michael J. Holland .

craig-howe
Download Presentation

BCM 410A - lecture 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The body works at the molecular level • Molecules are organized into cells • Cells are organized into organs • Small molecules in the body • Biological macromolecules BCM 410A - lecture 1 • Drugs - ethanol • Dwarfism • Myocardial infarction • Aspirin

  2. Instructors: Michael J. Holland BCM 410A - vital statistics

  3. Instructors: Michael J. Holland Harry R. Matthews Welcome to BCM 410A

  4. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Welcome to BCM 410A

  5. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Welcome to BCM 410A

  6. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A

  7. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm

  8. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A

  9. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570

  10. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570 email: hrmatthews@ucdavis.edu

  11. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570 email: hrmatthews@ucdavis.edu reviews: Tuesdays, 5:00 pm, 2428/30

  12. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570 email: hrmatthews@ucdavis.edu reviews: Tuesdays, 5:00 pm, 2428/30 study aids: MoBy

  13. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570 email: hrmatthews@ucdavis.edu reviews: Tuesdays, 5:00 pm, 2428/30 study aids: MoBy lecture “slides”

  14. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570 email: hrmatthews@ucdavis.edu reviews: Tuesdays, 5:00 pm, 2428/30 study aids: MoBy lecture “slides” WWW sites: http://moby.ucdavis.edu

  15. Instructors: Michael J. Holland Harry R. Matthews John W.B. Hershey Larry Hjelmeland Michael Hanley Welcome to BCM 410A office hours: noon - 12:45 pm and 4:30 - 5:30 pm office: room 4125 MS1A telephone: 752-3570 email: hrmatthews@ucdavis.edu reviews: Tuesdays, 5:00 pm, 2428/30 study aids: MoBy lecture “slides” WWW sites: http://moby.ucdavis.edu http://medtstgo.ucdavis. edu/Resource.htm

  16. The body works at the molecular level Our food is broken down to small molecules before use by the body Organs and cells communicate through molecules circulating in the blood stream—hormones Molecules can have dramatic effects—drugs Energy is stored (glycogen, fat), transported (triglycerides, glucose) used (ATP) at the molecular level.

  17. smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Molecules are organized into cells

  18. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Golgi complex: a structure where proteins are processed and sorted on their way to other organelles or to the exterior of the cell.

  19. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Nucleus: a separate compartment containing the DNAand the processes of RNA and DNA synthesis

  20. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Mitochondria: structures involved in the synthesis ofATP to provide energy for the cell

  21. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Nuclear envelope: the membrane that separates the nucleus from the cytoplasm Cytoplasm: the solution between the plasma membrane and the other organelles

  22. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Plasma membrane: the membrane that separates the interior of the cell from its exterior

  23. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Smooth endoplasmic reticulum: cytoplasmic membrane structure

  24. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Ribosomes: macromolecular complexes that synthesize proteins

  25. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Pore complex: pores in the nuclear membrane that allow small molecules to pass but regulate the passsage of large molecules

  26. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Nucleolus: a structure inside the nucleus where specific RNA molecules are synthesized

  27. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Rough endoplasmic reticulum: regions of the endoplasmic reticulum (E.R.) that are coated with ribosomes

  28. Molecules are organized into cells smooth endoplasmicreticulum Golgi complex ribosomes nucleus pore complex nucleolus mitochondrion rough endoplasmicreticulum nuclear envelope vesicle plasma membrane Vesicle: a variety of additional structures in the cytoplasm used for storage or transport or specialized enzyme reactions, e.g. lysozomes, peroxisomes

  29. Molecules are organized into cells Cell from the pancreas Note: plasma membrane

  30. Molecules are organized into cells Cell from the pancreas Note: plasma membrane mitochondria

  31. Molecules are organized into cells Cell from the pancreas Note: plasma membrane mitochondria nucleus

  32. Molecules are organized into cells Cell from the pancreas Note: plasma membrane mitochondria nucleus nucleolus

  33. Molecules are organized into cells Cell from the pancreas Note: plasma membrane mitochondria nucleus nucleolus endoplasmic reticulum

  34. Molecules are organized into cells Cell from the pancreas Note: plasma membrane mitochondria nucleus nucleolus endoplasmic reticulum Golgi complex

  35. human lymphocyte מיטוכונדריה גופיףגולג’י ממברנהפלסמטית גרעין רטיקולום אנדופלסמטי

  36. Cell of endocrine gland hormone molecules Target cells Capilliary network (a) Cells are organized into organs Note 3 organ systems in picture (a): i) endocrine gland ii) blood stream iii) target organ

  37. Stimulus Target cells Capilliary network Cells are organized into organs Note 3 organ systems in picture (b): i) neurosecretory cells ii) blood stream iii) target organ Neurosecretorycells hormone molecules (b)

  38. Myocardial infarction Creatine kinase (CK) activity in the blood after a myocardial infarction days after infarction

  39. Clinical correlate - dwarfism growth hormone A defect in the pituitary can lead to inadequate production of growth hormone. Children with this disease grow very slowly but injections of human growth hormone restore normal growth.

  40. Aspirin - a clinically valuablesmall molecule acetyl salicylate acetyl group

  41. Aspirin - a clinically valuablesmall molecule prostaglandin synthase inflammation

  42. Aspirin - a clinically valuablesmall molecule prostaglandin synthase + enzyme - NH2 acetyl salicylate + enzyme - NH - CO - CH3 acetylated prostaglandin synthase salicylate

  43. Aspirin - a clinically valuablesmall molecule prostaglandin synthase inflammation + enzyme - NH2 + enzyme - NH - CO - CH3 acetylated prostaglandin synthase

  44. Aspirin - a clinically valuablesmall molecule prostaglandin synthase inflammation + enzyme - NH2 acetyl salicylate + enzyme - NH - CO - CH3 acetylated prostaglandin synthase salicylate

  45. Small molecules in the body Common building blocks for small molecules: • methyl groups • hydroxyl groups • carbonyl groups • carboxyl groups • amino groups

  46. Small molecules in the body Common building blocks for small molecules: methyl groups hydroxyl groups carbonyl groups carboxyl groups amino groups -CH3 CH3-CH2-OH ethanol

  47. Small molecules in the body Common building blocks for small molecules: methyl groups hydroxyl groups carbonyl groups carboxyl groups amino groups -OH CH3-CH2-OH ethanol

  48. -C=O H Small molecules in the body Common building blocks for small molecules: methyl groups hydroxyl groups carbonyl groups carboxyl groups amino groups aldehyde -C=O ketone

  49. -C-OH O -C-O- O + NH3-CH2-COO- glycine Small molecules in the body Common building blocks for small molecules: -COO- methyl groups hydroxyl groups carbonyl groups carboxyl groups amino groups

  50. -NH+ 3 + NH3-CH2-COO- glycine Small molecules in the body Common building blocks for small molecules: methyl groups hydroxyl groups carbonyl groups carboxyl groups amino groups -NH 2

More Related