KULIAH PENDAHULUAN BIOKIMIA.

Presentasi berjudul: "KULIAH PENDAHULUAN BIOKIMIA."— Transcript presentasi:

1 KULIAH PENDAHULUAN BIOKIMIA

2 Apakah BIOKIMIA itu? Definisi biokimia:
“the study of the structure, composition, and chemical reactions of substances in living systems” (ACS). Biokimia dapat dikatakan penggabungan ilmu kimia dan biologi. Ilmu dasar untuk memahami berbagai reaksi kimia di dalam sel, mulai dari masuknya nutrisi ke dalam sel, pengolahannya menjadi energi, sampai proses pengolahan dan ekskresi limbah metabolismenya.

3 Apa yang dipelajari dalam BIOKIMIA?
Struktur kimia dan bentuk tiga dimensi molekul biologi Interaksi antar biomolekul Sintesis dan degradasi biomolekul dalam sel Perolehan dan pemanfaatan energi oleh sel Mekanisme pengorganisasian biomolekul dan pengkoordinasian aktivitasnya Penyimpanan, pemindahan dan ekspresi informasi genetik

4 Ilmu yang membutuhkan dasar-dasar BIOKIMIA
Genetika, biologi sel Fisiologi dan imunologi Farmakologi dan farmasi Toksikologi, patologi, mikrobiologi Zoologi dan botani

5 What does the Biochemistry discuss?
structure and function of cellular components proteins, carbohydrates, lipids, nucleic acids and other biomolecules Metabolism and Regulation Gene expression and modulation DNA RNA Protein

6 Principles of Biochemistry
Cells (basic structural units of living organisms) are highly organized and constant source of energy is required to maintain the ordered state. All organisms use the same type of molecules: carbohydrates, proteins, lipids & nucleic acids. Living processes contain thousands of chemical pathways. Precise regulation and integration of these pathways are required to maintain life. Instructions for growth, reproduction and developments for each organism is encoded in their DNA.

7 Cells Basic building blocks of life
Smallest living unit of an organism A cell may be an entire organism (unicellular) or it may be one of billions of cells that make up the organism (multicellular). Grow, reproduce, use energy, adapt, respond to their environment Many cannot be seen with the naked eye a typical cell size is 10µm; a typical cell mass is 1 nanogram.)

8 Cells May be Prokaryotic or Eukaryotic
Prokaryotes (Greek: pro-before; karyon- nucleus) include various bacteria lack a nucleus or membrane-bound structures called organelles Eukaryotes (Greek: eu-true; karyon-nucleus) include most other cells (plants, fungi, & animals) have a nucleus and membrane-bound organelles

9 •Cell membrane & cell wall
•Nucleoid region contains the DNA Contain ribosomes (no membrane) • Cell Membrane • Nucleus Cytoplasm with organelles

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11 Characteristic of Bio-membranes and Organelles
Plasma Membrane-Cell’s defining boundary Providing a barrier and containing transport and signaling systems. Nucleus – Cell’s information center Double membrane surrounding the chromosomes and the nucleolus. The place where almost all DNA replication and RNA synthesis occur. The nucleolus is a site for synthesis of RNA making up the ribosome Mitochondria- the power generators Mitochondria (Greek: mitos-thread; chondros-granule): Surrounded by a double membrane with a series of folds called cristae. Functions in energy production through metabolism. Contains its own DNA.

12 Ribosomes Protein and RNA complex responsible for protein synthesis
Endoplasmic reticulum (ER) – The transport network for molecules Rough endoplasmic reticulum (RER) Covered with ribosomes (causing the "rough" appearance) which are in the process of synthesizing proteins for secretion or localization in membranes. Ribosomes Protein and RNA complex responsible for protein synthesis Smooth endoplasmic reticulum (SER) A site for synthesis and metabolism of lipids.

13 Golgi apparatus -process and package the macromolecules
Golgi apparatus -process and package the macromolecules. A series of stacked membranes. Vesicles carry materials from the RER to the Golgi apparatus. Vesicles move between the stacks while the proteins are "processed" to a mature form. Lysosomes-contain digestive enzyme A membrane bound organelle that is responsible for degrading proteins and membranes in the cell. Cytoplasm enclosed by the plasma membrane, liquid portion called cytosol and it houses the membranous organelles.

14 BIOMOLEKUL

15 BIOMOLEKUL 1. Sebagian besar massa sel terbentuk dari unsur: Hidrogen
Oksigen Nitrogen Karbon 2. Sisanya disebut trace element, berperan dalam fungsi spesifik dan jumlahnya sangat kecil

16 Apa itu BIOMOLEKUL? Molekul dalam sistem hidup:
Biomolekul: molekul organik yang dibuat oleh organisme hidup (Karbohidrat, Protein, Lemak, DNA, senyawa bahan alam) Molekul dalam sistem hidup: Dibagi atas Makromolekul (Karbohidrat, Protein, Lipid, Asam Nukleat) Mikromolekul (as amino, glukosa) Metabolit primer ada di semua sistem hidup Metabolit sekunder fungsi khusus

17 Contoh-contoh Biomolekul
Molekul berukuran kecil: Lipid, fosfolipid, glikolipid, sterol, Vitamin Hormon, neurotransmitter Monomer: Asam Amino Nucleotida Monosakarida Polimer: polypeptides, proteins Asam Nukleat, yaitu DNA, RNA polisakarida

18 Bagaimana biomolekul dapat membuat makhluk hidup menjadi hidup?
Serangkaian proses kimia secara berurutan dan terkendali yang mengubah senyawa kompleks menjadi sederhana dan senyawa sederhana menjadi senyawa lebih kompleks Anabolism Senyawa penyusun gula sederhana asam amino nukleotida asam lemak Makromolekul polisakarida Protein (polipeptida) RNA atau DNA Lipid Catabolism