Snurps? describe how cells modify RNA after transcription.

Slides:

Advertisements

Similar presentations

Chapter 17~ From Gene to Protein

Advertisements

Central Dogma Big Idea 3: Living systems store, retrieve, transmit, and respond to info essential to life processes.

Nucleic Acids 7.3 Translation.

Translation and Transcription

Genes and Protein Synthesis

Transcription: Synthesizing RNA from DNA

Protein Synthesis The genetic code – the sequence of nucleotides in DNA – is ultimately translated into the sequence of amino acids in proteins – gene.

Gene Structure and Function

Quiz tiiiiime What 3 things make up a nucleotide?

Gene Activity: How Genes Work

FROM DNA TO PROTEIN Transcription – Translation We will use:

Chapter 17 From Gene to Protein.

From Gene to Protein Chapter 17 - Campbell What do genes code for? proteins All the traits of the body How does DNA code for cells & bodies?  how are.

From Gene to Protein Chapter 17.

Initiating translation

FROM DNA TO PROTEIN Transcription – Translation. I. Overview Although DNA and the genes on it are responsible for inheritance, the day to day operations.

From Gene to Protein Transcription – the synthesis of RNA from the DNA template –messenger RNA (mRNA) – carries a genetic message from the DNA in the.

Transcription Translation

Chapter 17 From Gene to Protein

From Gene To Protein Chapter 17. From Gene to Protein The “Central Dogma of Molecular Biology” is DNA  RNA  protein Meaning that our DNA codes our RNA.

Chapter 17: From Gene to Protein Objectives 1. To understand the central dogma 2.To understand the process of transcription 3.To understand the purpose.

From Gene to Protein Transcription and Translation Mechanisms of Regulation DNA  RNA  Protein Transcription Translation.

Protein Synthesis. Transcription DNA  mRNA Occurs in the nucleus Translation mRNA  tRNA  AA Occurs at the ribosome.

Chapter 17 From Gene to Protein. Gene Expression DNA leads to specific traits by synthesizing proteins Gene expression – the process by which DNA directs.

RESULTS EXPERIMENT CONCLUSION Growth: Wild-type cells growing and dividing No growth: Mutant cells cannot grow and divide Minimal medium Classes of Neurospora.

PROTEIN SYNTHESIS HOW GENES ARE EXPRESSED. BEADLE AND TATUM-1930’S One Gene-One Enzyme Hypothesis.

Protein Synthesis.

Transcription. Recall: What is the Central Dogma of molecular genetics?

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece.

Functions of RNA mRNA (messenger)- instructions protein

Genes and Protein Synthesis

Student Assessment of Learning Gains (SALG) website.

Protein Synthesis.

Chapter 17: From Gene to Protein. Figure LE 17-2 Class I Mutants (mutation In gene A) Wild type Class II Mutants (mutation In gene B) Class III.

Central Dogma – part 2 DNA RNA PROTEIN Translation Central Dogma

RNA processing and Translation. Eukaryotic cells modify RNA after transcription (RNA processing) During RNA processing, both ends of the primary transcript.

Chapter 17.  1902 – Archibald Garrod  Suggested genes dictate phenotype through enzymes of reactions ▪ Alkaptonuria – black urine ▪ Contains alkapton.

THE THREE TYPES OF RNA. Section 11.2 Summary – pages There are three main types of RNA that help build proteins. # 1 Messenger RNA (mRNA) brings.

From Gene to Protein Chapter 17. Overview of Transcription & Translation.

Protein Synthesis. One Gene – One Enzyme Protein Synthesis.

Chapter 17: From Gene to Protein AP Biology Mrs. Ramon.

Transcription, RNA Processing, & Translation

FROM DNA TO PROTEIN Transcription – Translation

Protein synthesis DNA is the genetic code for all life. DNA literally holds the instructions that make all life possible. Even so, DNA does not directly.

Transcription, RNA Processing, & Translation

From Gene to Protein Lecture 14 Fall 2008

Transcription and Translation

Exam #1 W 9/26 at 7-8:30pm in UTC 2.102A Review T 9/25 at 5pm in WRW 102 and in class 9/26.

Protein Synthesis Ch 17.

Protein Synthesis.

Protein Synthesis.

Gene Expression : Transcription and Translation

Transcription & Translation.

Concept 17.3: Eukaryotic cells modify RNA after transcription

Gene Expression: From Gene to Protein

Chapter 17 Protein Synthesis.

From Gene to Protein Chapter 17.

Chapter 17 From Gene to Protein.

Chapter 17 From gene to protein.

Gene Expression: From Gene to Protein

(Transcription & Translation)

Title of notes: Transcription and Translation p. 16 & 17

Protein Synthesis The genetic code – the sequence of nucleotides in DNA – is ultimately translated into the sequence of amino acids in proteins – gene.

Figure 17.1 Figure 17.1 How does a single faulty gene result in the dramatic appearance of an albino deer?

Protein Synthesis.

Protein Synthesis The genetic code – the sequence of nucleotides in DNA – is ultimately translated into the sequence of amino acids in proteins – gene.

Transcription/ Translation

Protein Synthesis.

Protein Synthesis.

Presentation transcript:

Snurps? describe how cells modify RNA after transcription

Promoter DNA sequence where RNA polymerase initiates transcription describe how cells modify RNA after transcription

Trasnscription Transcription factors + RNA polymerase2 = Transcription initiation complex describe how cells modify RNA after transcription

Why is it called the TATA BOX? describe how cells modify RNA after transcription

Termination Transcription occurs until Polymerase II reaches polyadenylation signal (AAUAAA) describe how cells modify RNA after transcription

RNA processing 5’Cap and poly-A-tail Pre mRNA describe how cells modify RNA after transcription

Predict what needs to happen to this molecule. Average length of transcription is 27,000 base pairs. Average protein coded by 1,200 bp.

Splicing describe how cells modify RNA after transcription

Introns Cut out of the pre- mRNA Will be used later describe how cells modify RNA after transcription

Exons “exit nucleus” as finished mRNA describe how cells modify RNA after transcription

What do snRNPs do? describe how cells modify RNA after transcription

snurps Recognize splice sites RNA and protein molecules snRNPs join with eachother to build Spliceosome describe how cells modify RNA after transcription

What properties allow RNA to function as enzymes? describe how cells modify RNA after transcription

What properties allow RNA to function as enzymes? Single stranded Bases match up with each other Some bases contain functional groups that may participate in catalysis Hydrogen bonding adds to specificty to its catalytic ability describe how cells modify RNA after transcription

Ribozymes Introns become self splicing ribozymes

What are Ribosomes?

Ribosomes rRNA Transcribed from DNA  rRNA 3 molecules (bacteria) 4 molecules (eukaryotes) 2 sub Units Describe how RNA is translated into proteins

Psite- holds tRNA Asite- holds next tRNA holding next amino acid Esite- exiting tRNA Describe how RNA is translated into proteins

Fig U U A A C G Met GTP GDP Initiator tRNA mRNA 5 3 Start codon mRNA binding site Small ribosomal subunit 5 P site Translation initiation complex 3 EA Met Large ribosomal subunit

Video 1

Video 2

Fig Amino end of polypeptide mRNA 5 3 E P site A site

Fig Amino end of polypeptide mRNA 5 3 E P site A site GTP GDP E P A

Fig Amino end of polypeptide mRNA 5 3 E P site A site GTP GDP E P A E PA

Fig Amino end of polypeptide mRNA 5 3 E P site A site GTP GDP E P A E PA GTP Ribosome ready for next aminoacyl tRNA E P A

Predict which end of the mRNA moves through the ribosome first. Describe how RNA is translated into proteins

Poly Ribosomes Why? Describe how RNA is translated into proteins

Where does polypeptide synthesis always begin? Describe how RNA is translated into proteins

Where does polypeptide synthesis end? Option 1: cytosol Option 2: Endoplasmic reticulum (marked by signal peptide) Describe how RNA is translated into proteins

The ribosome recognizes these molecules at a complex called signal-recognizing particle (SRP)

Write your summary and Q’s