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REGULASI EKSPRESI PROTEIN. Agustina Setiawati. Pendahuluan. DOGMA SENTRAL. Pada proses apakah ekspresi suatu gen diatur ? . Pendahuluan. Regulated genes Control cell growth and cell division.
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REGULASI EKSPRESI PROTEIN AgustinaSetiawati
Pendahuluan DOGMA SENTRAL
Pendahuluan Regulated genes Control cell growth and cell division. Expression is regulated by the needs of the cell and the environment as needed (not continuously). Constitutive genes Continuously expressed. Housekeeping genes (such as those required for protein synthesis and glucose metabolism).
OPERON • Kelompok gen yang ekspresinyadiaturolehinteraksioleh protein represordgn operator, site operator dan promoter • Kelompok gen yang letaknyaberadadiantarapromotordan terminator promoter repressor operator (controlling site) coding sequences terminator
INDUCER and INDUCTION • Inducer = chemical or environmental agent that initiates transcription of an operon • Induction = synthesis of gene product(s) in response to an inducer
Prokaryote • Lac Operon • TrpOperon
LAC OPERON (Negative Regulation) • E. colimengekspresikan protein yang digunakanuntukmetabolismegula • Salahsatugula yang dimetabolismeadalah LAKTOSA • Laktosa= disakarida (glukosa+ galaktosa), sebagaisumberenergi. • Laktosabertindaksebagai INDUCER (denganberinteraksidengan protein represor) danmeningkatkanekspresi 3 enzim yang berperandalammetabolismelaktosa (1000-fold increase)
LAC OPERON • LacI • . Mengekspresikan protein tetramer yang bertindaksebagairepresor • -galactosidase (lacZ) • memecahlaktosamenjadiglukosadangalaktosa. • mengubahlaktosamenjadiallolaktosa yang mengatur Lac operon • Lactose permease (lacY) • berperandalam transport laktosadalammembransitoplasma. • Transacetylase (lacA) • transfers an acetyl group from acetyl-CoA to -galactosides.
Fig. 17.14, Base pair sequence of controlling sites, promoter, and operator for lac operon of E. coli.
Trp OPERON • Trpoperonmenghasilkanberbagaimacamenzim yang berperandalambiosintesistriptofan (Trp) • Triptofanmerupakanasam amino yang diperlukanutkpertumbuhanbakteri • Triptofanbertindaksebagai repressor
Trp OPERON • Jikaasam amino terdapatpada media, E.colimenggunakanasam amino tersebutsebelummensintesis. • Jika amino acids tidakadadalam medium, gen asam amino tersebutdiekspresikan are “turned on” (or expressed. • The tryptophan (Trp) operon of E. coli is one of the most extensively studied repressible operons.
Regulation of the trpoperon: • Two mechanisms regulate the trpoperon: • Repressor/operator interaction • Termination of initiated transcripts
: Regulation of the trpoperon 1. Interaksi repressor/operator • Apabilatriptofanada, tryptophan terikatpada protein trpR. • Protein trpR binds to the trpoperator and mencegahtranskripsi • Represimengurangitingkattranskripsitrpoperon ~70-fold.
Regulation of the trpoperon: 2. AttenuasiTerminasitranskripsi • TranskripsiTrpoperonjgdikontrololeh by attenuasisehingga protein yang ditranslasikanmenjadilebihpendekdan non fungsional • Ketikaselkekurangantriptofan, Trpoperondiekspresikanmaksimaldansebaliknya. • Attenuation dapatmenurunkan level transkripsi 560-700 kali.
KontrolEkspresi Protein Eukaryote dilakukanoleh: 1. Protein aktivatordanrepresor 2. Faktortranskripsi
Aktivator yang terikatpada DNA binding site mengaktifkankomplekstranskripsi enzim RNA polimerasemengkatalisispembentukanfosfodiester
Gene activator proteins recruit Chromatin modulation proteins to induce transcription
Synergistic Regulation Transcription synergy
RegulasitranskripsiolehFaktorTranskripsi • Protein yang dapatmengenali DNA padasekuenspesifikdanberperanmengaturtranskripsidisebut FAKTOR TRANSKRIPSI • Mekanismekerjafaktortranskripsi 1. menstabilkan/mendestabilkankompleksinisiasitranskripsi 2. meningkatkanreaksiasetilasi/deasetilasihiston 3. menarik protein aktivatorataurepresor
Kerjafaktortranskripsidipengaruhiolehstruktursekundernya • Strukturtersebutmempengaruhiinteraksinyadengan DNA: 1. Helix-turn-Helix 2. Zinc finger 3. Leucine Zipper
