Chapter 16 - Genes and Proteins
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Chapter 16 - Genes and Proteins - Leaderboard
Chapter 16 - Genes and Proteins - Details
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🇬🇧 | 🇬🇧 |
At the beginning of translation, the start codon is | In the p-site of the ribosome. |
A gene contains the code for | A protein |
RNA polymerase binds to | The core promoter |
Genome | An organism’s complete set of DNA. |
CHROMOSOME | One or more unique pieces of DNA. Chromosomes vary in length and hundreds of millions of base pairs and hundreds to thousands of genes. |
GENEA | Specific sequence of DNA that contains the information necessary to produce a protein. |
The Central Dogma of Biology | DNA -> RNA -> Protein |
Transcription- | (DNa) to Rna processing |
Transcription and Translation | Is from DNA to mRNA and Translation is from mRNA to protein |
How to use a genetic code | First covert Dna to mRNA and then locate the 3 letters(AUG-Met) |
Gene structure | 1.The promoter-siginals the start Coding Region-contains the information that specifies an amino acid sequence Terminator- signals the end of transcription |
Gene Structure | The promoter-siginals the startCoding Region-contains the information that specifies an amino acid sequence Terminator- signals the end of transcription |
Alternative splicing- | One gene can make several different proteins |
MRna processing | 1.transcription2Capping 3Splicing4Tailing |
MRNA structure - | Coding region, start codon, stop codon, 3’ and 5’ untranslated region” |
TRNA structure | (anticodon, amino acid site,mRna and condon |
What can be much more harmful than substitutions because they can alter the reading frame for the rest of the gene. | Insertions and deletions |
Traslation 8th part | 8.Finally, the last tRNA is released, and the ribosome comes apart. The released polypeptide forms a new protein. |
Translation 7th part | 7.When the ribosome reaches a stop codon, the polypeptide is released. |
Translation 6th part | 6.The ribosome continues to move along the mRNA, and new amino acids are added to the polypeptide. |
Traslation 4th part | 4.The ribosome moves along the mRNA until the second tRNA is in the P site. The next codon to be translated is brought into the A site. The first tRNA now occupies the E site. |
Traslation 3rd part | 3.The second codon of the mRNA pairs with a tRNA carrying the second amino acid at the A site. -The first amino acid joins to the second by a peptide bond. -This attaches the polypeptide to the tRNA in the P site. |
Translation 2nd part | 2.On assembled ribosome, a tRNA carrying the first amino acid is paired with the start codon on the mRNA. -The place where this first tRNA sits is called the P site. A tRNA carrying the second amino acid approaches |
Translation 1st part | 1.small and large subunit come together |
Traslation 5th part | 5.The second amino acid joins to the third by another peptide bond, and the first tRNA is released from the E site. |
Silent – | The same amino acid is coded for |
Missense – | The amino acid is changed to another amino acid |
Nonsense – | The codon is changed to a stop codon |
Insertion and Deletion mutations – | Insertion or deletion of one or more nucleotides |
If not in multiples of three (GAU GA) | Frameshift mutation |
Things that cause mutations | Errors in Dna replication, Toxic metabolic products and change in nucleotide structure .-Carcingoens,UV radiation and X-rays |
Mutations in other regions than the coding region of genes | In promotor/enhancer region ,Intron |
Somatic | Changes to your DNA that happen after conception to cells other than the egg and sperm. |
Germline mutations | Are changes to your DNA that you inherit from the egg and sperm cells during conception. |
A point mutation in the hemoglobin β gene(missense) | Leads to Sickle Cell Trait |
Nonsese causes | Duchenne muscular dystrophy(DMD) cause walking problem |
Deamination | The removal of an amino group from a molecule. |
UV Radiation | Causes Thymine Dimers |
Transposons | Are samll segemt of DNA that can insert in the genome and may inactive the gene |
1.Chemical agents | (like cigarette) cause change in DNA structure |
2.physical agents | Like Uv light & x-ray can damage DNA |
Given a “normal” and transcribe and translate them and tell what kind of mutation is present | TCA GAt CTG GTC AGU CUA GAC CAG Ser Leu Asp Gln |
“mutated” DNA sequence, how to transcribe and translate them and tell what kind of mutation is present | AGU CUA GAA CAG Ser Leu Glu Gln Missense |