Presentation is loading. Please wait.

Presentation is loading. Please wait.

D. RNA – ribonucleic acid 1. RNA Structure a] ribose sugar + phosphate + nitrogenous base but Uracil replaces Thymine (Almost always) b] single stranded.

Published byGinger Miller Modified over 8 years ago

Similar presentations

Presentation on theme: "D. RNA – ribonucleic acid 1. RNA Structure a] ribose sugar + phosphate + nitrogenous base but Uracil replaces Thymine (Almost always) b] single stranded."— Presentation transcript:

1 D. RNA – ribonucleic acid 1. RNA Structure a] ribose sugar + phosphate + nitrogenous base but Uracil replaces Thymine (Almost always) b] single stranded molecule c] much shorter than DNA 5’P—sugar—P—sugar—P—sugar—P—sugar—P—sugar—3’ l l l l l A C G C U

2 2. features unlike DNA, RNA can survive in the cytoplasm if properly prepared Consider…..if a student loses their notes, they can always make another copy from the textbook. However, if they lose the textbook……they have problem.

3 3. types of RNA a. mRNA – messenger RNA - varies in length, but always much shorter than DNA - carries the coded message for protein building from the DNA to the ribosomes

4 b. tRNA – transfer RNA - very short, 70-90 bases only - acts to transport the amino acids to the mRNA at the ribosomes

5 c. rRNA – ribosomal RNA - varies in length, but shorter than mRNA - binds the large and small subunits to form a functional ribosome

6 E. TRANSCRIPTION 1. Initiation a. RNA polymerase binds to a specific region of the DNA that is A-T rich and so easy to separate b. the DNA is unwound and the two strands are separated – the process of copying the information from a piece of DNA to make RNA [usually mRNA]

7 2. Elongation a. only the 3’ to 5’ strand is used  template strand b. the unused strand [5’ to 3’] is called the coding strand G C C T A A T C G T C A C T G C A A C T 3’—C G C A T T G C G T A A C G—5’ 5’—G C G T A A C G C A T T G C—3’ G A C G G A T T A G C A G T G A C G T T

8 c. free floating nucleotides A, U, C & G are H—bonded to their complimentary basesby RNA polymerase d.RNA polymerase moves along the DNA unwinding & separating as it goes while the DNA winds back up behind it e. the mRNA hangs free off the side of the DNA strand attached only at a few base pairs G C C T A A T C G T C A C T G C A A C T 3’—C G C A T T G C G T A A C G—5’ 5’—G C G T A A C G C A T T G C—3’ G A C G G A T T A G C A G T G A C G T T 5’ G C G U A A G C GG A U U A G C Coding strand Template strand RNA polymerase

9 3. Termination a.RNA polymerase encounters a sequence of bases at the end of the gene called a terminator sequence b. this results in RNA polymerase and the primary transcript being released from the DNA

10 Note: only a small piece of the total DNA is transcribed

11 4. Post-transcriptional modifications a. a 5’ CAP is added to the mRNA to protect it from cytoplasmic enzymes b. a poly-A tail of 200 or so adenines is added by poly-A- polymerase to the 3’ end INTRONEXON INTRON EXONINTRONEXON CAP poly-A tail

12 e. in eukaryotes spliceosomes remove all the non-coding regions [introns] and ligate the coding regions [exons] to form the mature mRNA transcript c. this results in the mRNA transcript being ready for release from the nucleus INTRONEXON INTRON EXONINTRONEXON CAP poly-A tail EXON CAP poly-A tail d. in prokaryotes, [bacteria] that is all of the processing

13 INTRONEXON INTRON EXONINTRONEXON INTRONEXON INTRON EXONINTRONEXON CAP poly-A tail EXON CAP poly-A tail primary transcript mRNA transcript mature mRNA transcript

14

15 categoryDNA replicationRNA transcription direction strands copied amount copied # of enzymes bonds broken bonds formed 3’  5’ leading & laggingtemplate only all of DNAsmall piece only total of 6only one hydrogen bonds & covalent bond hydrogen bonds & covalent bond 5. Comparing DNA replication with RNA transcription

Download ppt "D. RNA – ribonucleic acid 1. RNA Structure a] ribose sugar + phosphate + nitrogenous base but Uracil replaces Thymine (Almost always) b] single stranded."

Similar presentations

How is RNA Transcribed from DNA

How is RNA Transcribed from DNA
DNA Replication and RNA Production Selent. Replication The process of copying DNA The two chains of nucleotides separate by unwinding and act as templates.

DNA Replication and RNA Production Selent. Replication The process of copying DNA The two chains of nucleotides separate by unwinding and act as templates.
Chapter 13: RNA and Protein Synthesis

Chapter 13: RNA and Protein Synthesis
Transcription & Translation

Transcription & Translation
RNA (Ribonucleic acid)

RNA (Ribonucleic acid)
Transcription: Synthesizing RNA from DNA

Transcription: Synthesizing RNA from DNA
FROM GENE TO PROTEIN: TRANSCRIPTION & RNA PROCESSING Chapter 17.

FROM GENE TO PROTEIN: TRANSCRIPTION & RNA PROCESSING Chapter 17.
The Central Dogma States: information flows in one direction from DNA to RNA to proteins. Includes 3 processes: RNA is the link between DNA and proteins.

The Central Dogma States: information flows in one direction from DNA to RNA to proteins. Includes 3 processes: RNA is the link between DNA and proteins.
Protein Synthesis The genetic code – the sequence of nucleotides in DNA – is ultimately translated into the sequence of amino acids in proteins – gene.

Protein Synthesis The genetic code – the sequence of nucleotides in DNA – is ultimately translated into the sequence of amino acids in proteins – gene.
RNA Ribonucleic acid single stranded also made of nucleotides.

RNA Ribonucleic acid single stranded also made of nucleotides.
RNA. ________ are coded DNA instructions that control the ___________ of proteins. Genetic ______________ can be decoded by copying part of the ___________.

RNA. ________ are coded DNA instructions that control the ___________ of proteins. Genetic ______________ can be decoded by copying part of the ___________.
RNA & Protein Synthesis.

RNA & Protein Synthesis.
Do Now: On the “Modeling DNA” handout, determine the complimentary DNA sequence and the mRNA sequence by using the sequence given.

Do Now: On the “Modeling DNA” handout, determine the complimentary DNA sequence and the mRNA sequence by using the sequence given.
Genetics 3: Transcription: Making RNA from DNA. Comparing DNA and RNA DNA nitrogenous bases: A, T, G, C RNA nitrogenous bases: A, U, G, C DNA: Deoxyribose.

Genetics 3: Transcription: Making RNA from DNA. Comparing DNA and RNA DNA nitrogenous bases: A, T, G, C RNA nitrogenous bases: A, U, G, C DNA: Deoxyribose.
8.4 Transcription KEY CONCEPT Transcription converts a gene into a single-stranded RNA molecule.

8.4 Transcription KEY CONCEPT Transcription converts a gene into a single-stranded RNA molecule.
DNA Function: Information Transmission. ● DNA is called the “code of life.” What does it code for? *the information (“code”) to make proteins!

DNA Function: Information Transmission. ● DNA is called the “code of life.” What does it code for? *the information (“code”) to make proteins!
RNA: Structure & Function. What is RNA? RNA is a nucleic acid called Ribonucleic Acid Functions of RNA:  RNA transfers genetic information from the nucleus.

RNA: Structure & Function. What is RNA? RNA is a nucleic acid called Ribonucleic Acid Functions of RNA:  RNA transfers genetic information from the nucleus.
RNA Chapter 10.2. Structure of RNA Ribose- the sugar molecule of every RNA nucleotide Uracil- nitrogen-containing pyrimidine base (replaces thymine) Uracil.

RNA Chapter Structure of RNA Ribose- the sugar molecule of every RNA nucleotide Uracil- nitrogen-containing pyrimidine base (replaces thymine) Uracil.
RNA & Transcription. RNA (Ribonucleic Acid) Journal For all your RNA news!

RNA & Transcription. RNA (Ribonucleic Acid) Journal For all your RNA news!
What is central dogma? From DNA to Protein

What is central dogma? From DNA to Protein

Similar presentations

Ads by Google