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PENGANTAR ILMU BIOKIMIA. Oleh H.Mohammad Hanafi,MBBS, dr, MS. Dosen Ilmu Biokimia FK UAIR

PENGANTAR ILMU BIOKIMIA. Oleh H.Mohammad Hanafi,MBBS, dr, MS. Dosen Ilmu Biokimia FK UAIR. Ilmu Biokimia : mempelajari macam-macam molekul yang ada di dalam sel mahluk hidup dan organisme dan reaksi-reaksi kimia yang terjadi diantara molekul-molekul tersebut.

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PENGANTAR ILMU BIOKIMIA. Oleh H.Mohammad Hanafi,MBBS, dr, MS. Dosen Ilmu Biokimia FK UAIR

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  1. PENGANTAR ILMU BIOKIMIA. Oleh H.Mohammad Hanafi,MBBS, dr, MS. Dosen Ilmu Biokimia FK UAIR

  2. Ilmu Biokimia : mempelajari macam-macam molekul yang ada di dalam sel mahluk hidup dan organisme dan reaksi-reaksi kimia yang terjadi diantara molekul-molekul tersebut. Ilmu Biokimia dapat  perkawinan antara ilmu kimia dan ilmu biologi.

  3. Flow of information: from nucleic acids to proteins DNARNAProtein Ilmu yang memperhatikan (concerned) dengan ilmu kimia dasar dari kehidupan (the chemical basis of life) Two notable breakthroughs in the history of biochemistry (1) Discovery of the role of enzymes as catalysts (2) Identification of nucleic acids as information molecules

  4. Manusia  organ ( otak, mata, organ-organ pencernaan, paru, jantung, ginjal, organ-organ reprodiksi, dan lainnya) Organ  jaringan, Jaringan  sel

  5. Organ Organism, Organ, Cell Organism

  6. The Cell Nucleus only in eukaryotic cells. Contains most of the cell's genetic material. The ER modifies proteins, makes macromolecules, and transfers substances throughout the cell. Ribosome translates mRNA into a polypeptide chain (e.g., a protein). Mitochondrion manufactures adenosine triphosphate (ATP), which is used as a source of energy. • circa 100 trillion (1014) cells in a human organism • 200 different forms of cells

  7. Fig 1.15 (a) Eukaryotic cell (animal)

  8. Fig 1.13 Structure of a biological membrane • A lipid bilayer with associated proteins

  9. Sel ada organel, supra molekul (ribosom, enzim), makromulekul (polisakarida, polipeptida), building block (asam amino, glukosa, asam lemak, deoksinukleotida, ribonukleotida dll) metabolit (asam piruvat, asam sitrat, asetoasetil-KoA, asam urat dll).

  10. Precursor adalah suatu senyawa yang dianggap dapat sebagai tanda adanya kehidupan di suatu planet Bahannya yg dianalisa adalah udara (H2O, N2, CO2, NH3 dan O2)

  11. Manusia tersusun atas : • bahan organik, • protein 15%, • lipid 15% • dan karbohidrat 5%, • (2) bahan anorganik 5% berat badan. • (a) kation, Na+, K, Ca2+, • Mg2+, Fe, Zn2+, Cu2+ dll. • (b) anion Cl-, HCO3-, SO42-, • H2P2O42- dll.

  12. Karbohidrat Senyawa polihidroksi aldehid atau polihidroksi keton. (1). Monosakarida (Cn H2n On ): Jumlah atom C Aldehid Keton Triose (3) Gliserose Dihidroksi aseton Tetrose (4) Eritrose Eritrulose Pentose (5) Ribose Ribulose Heksose (6) Glukose Fruktose

  13. Disakarida { Cn (H2O)n-1 }: Sukrose (glukose dan fruktose) Laktose (glukose dan galaktose) Maltose (dua glukose)

  14. (3). Oligosakarida ( 4 – 10 mono sakarida ) (4). Polisakarida: homopolisakarida, amilum, glikogen, innulin, sellulose dan lainnya heteropolisakarida, chitin, glikoprotein dll.

  15. Lipida Senyawa yang larut dalam pelarut nonpolar. (A). Lipida sederhana 1.triasil gliserol 2.lilin (B). Lipida komplek 1.fosfolipid, lesitin (lechitine) 2.serebrosida, sphingosin 3.lipoprotein (C). Turunan lipid 1.asam lemak 2.gliserol 3.steroid 4.keton bodies

  16. Asam amino dan Protein Senyawa yang mengandung gugus asam dan amino : H α R-C-N H3+ H3+N-C-COOH COOH | R Asam amino esensial (tikus putih) : Arginine (Arg=R), Histidine (His=H), Isoleucine (Ileu=I), Leucine (Leu=L), Lysine (Lys=K), Phenylalanine (Phe=F), Methionine (Met=M), Threonine (Thr=T), Tryptophan (Try=W) dan Valine (Val=V).

  17. Asam amino yang lain : Glycine (Gly=G), Alanine (Ala=A), Serine (Ser=S), Tyrosine (Tyr=Y), Cysteine (Cys=C), Aspartic acid (Asp=D), Asparagine (Asn=N), Glutamic acid (Glu=E), Glutamine (Gln=Q), dan Proline (Pro=P).

  18. Asam amino dapat membentuk polipeptida (protein) dengan ikatan peptida. Pembagian protein : (A).Protein sederhana: albumin, globulin, kollagen, histon da protamin (B).Protein terkonyugasi, nukleoprotein, glikoprotein, lipoprotein, metaloprotein, dan lainnya

  19. Protein Structure • Primary structure is the sequence of the amino acids in the protein. • A change in one amino acid can alter the biochemical behavior of the protein. • Secondary structure is the regular arrangement of segments of protein.

  20. Proteins Protein Structure One common secondary structure is the -helix. Hydrogen bonds between N-H bonds and carbonyl groups hold the helix in place.

  21. Proteins Protein Structure • Tertiary structure is the three dimensional structure of the protein. • Shape of the protein

  22. Tertiary structure of proteins catalase enzyme Structure solved using Xray crystallography

  23. Nucleic Acids • Nucleic acids carry genetic information. • DNA (deoxyribonucleic acids) have molecular weights around 6 - 16  106 amu and are found inside the nucleus of the cell. • RNA (ribonucleic acids) have molecular weights around 20,000 to 40,000 amu and are found in the cytoplasm outside the nucleus of the cell.

  24. Nucleic acids are made up of nucleotides. • There are three important parts to a nucleic acid: • phosphoric acid unit, • five carbon sugar (e.g. deoxyribose), and • nitrogen containing organic base (e.g. adenine).

  25. Adenosine Triphosphate (ATP) • Nitrogenous base (adenine), sugar (ribose)

  26. Deoxyadenylic Acid FG25_030.JPG

  27. Structure of a Polynucleotide

  28. Nucleic Acids • DNA and RNA have different sugars (dexoyribose vs. ribose). • There are only five bases found in DNA and RNA: • adenine (A), • guanine (G), • cytosine (C), • thymine (T found in DNA only), and • uracil (U found in RNA only).

  29. Nitrogen-Containing Bases

  30. Nucleic Acids • DNA consists of two deoxyribonucleic acid strands wound together in a double helix. • The phosphate chains are wrapped around the outside of the DNA molecule.

  31. Complementary base pairs are formed from bases which optimize H-bonding: T and A or C and G. • The complementary base pairs are held together by hydrogen bonding. • During cell division, the DNA double helix unwinds.

  32. Complementary Base Pairs

  33. A new strand is formed when bases attach to each strand of the unwinding double helix. • Because of the optimized hydrogen bonding, there is only one location for each base.

  34. Therefore, the order of bases in the new strand is the same as the order of bases in the original strand. • This is how genetic information is preserved during cell division • DNA structure provides us with the understanding of how protein synthesis occurs, how viruses infect cells, and other biological problems occur.

  35. FG25_032.JPG DNA Double Helix Wassalamua’alikum Wr. Wb.

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