* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download DNA/RNA/Protein Synthesis Study Guide
Bottromycin wikipedia , lookup
RNA interference wikipedia , lookup
Gel electrophoresis of nucleic acids wikipedia , lookup
Cell-penetrating peptide wikipedia , lookup
Molecular cloning wikipedia , lookup
Promoter (genetics) wikipedia , lookup
Messenger RNA wikipedia , lookup
Cre-Lox recombination wikipedia , lookup
Polyadenylation wikipedia , lookup
Expanded genetic code wikipedia , lookup
Molecular evolution wikipedia , lookup
Non-coding DNA wikipedia , lookup
List of types of proteins wikipedia , lookup
RNA polymerase II holoenzyme wikipedia , lookup
Vectors in gene therapy wikipedia , lookup
Silencer (genetics) wikipedia , lookup
Eukaryotic transcription wikipedia , lookup
RNA silencing wikipedia , lookup
Artificial gene synthesis wikipedia , lookup
Genetic code wikipedia , lookup
Transcriptional regulation wikipedia , lookup
Biochemistry wikipedia , lookup
Point mutation wikipedia , lookup
Epitranscriptome wikipedia , lookup
Gene expression wikipedia , lookup
Non-coding RNA wikipedia , lookup
DNA/RNA/Protein Synthesis Study Guide Terms to know: Nucleotide Chargaff Watson and Crick Franklin DNA RNA nucleic acid deoxyribose nitrogen base phosphate group hydrogen bonds covalent bonds replication double helix adenine thymine guanine cytosine gene DNA polymerase DNA helicase transcription ribose uracil RNA polymerase codon anticodon ribosome translation (protein synthesis) protein amino acid mRNA tRNA rRNA mutation Concepts to know structure of a nucleotide structure of DNA monomer of DNA bonding of DNA molecule base pairing, A-T, C-G steps involved in replication direction replication occurs antiparallel nature of DNA product at the end of replication when in cell’s life cycle replication occurs where in cell replication occurs be able to explain transcription including base pairing when transcription occurs where in cell transcription occurs structure of RNA be able to compare and contrast RNA and DNA function of three types of RNA be able to explain translation where in cell translation occurs describe how each type of RNA is involved in translation be able to transcribe DNA into RNA be able to translate RNA codons into amino acids what is the product of translation be able to label diagrams of replication, transcription and translation be able to label diagrams of DNA and RNA be able to relate importance of translation to expression of genes and keeping an organism alive examples of proteins made by translation types of mutations and their effects on proteins The Structure of RNA RNA is another type of nucleic acid. Like DNA, it is made of a long chain of nucleotides. However, there are 3 main differences between RNA and DNA. Fill in the differences between RNA and DNA. RNA DNA Translation RNA Protein Translation is the process of using the new mRNA as instructions to show which order the amino acids should go in. This happens in the __________________ of the cell. The order of the amino acids determines the type of protein that is made! Fill in the description of translation below using the diagram above: During the process of __________________, the cell uses information from (G)____________ to create organic molecules called __________, which are long chains of amino acids. All 3 types of RNA, _______, ______, and ______ have specific roles in this process. Structure B/G, known as __________, is important because it carries the DNA message from the (A)_____________ to the _______________. There, the (G) _________ attaches to the surface of (C) ___________, which is made partly of the second type of RNA, ___________. Thirdly, Structure D, also known as _________, is responsible for carrying both the (E) _____________ and its specific amino acid. The two amino acids shown in this diagram are _______________ and ____________. The amino acids bind with a ______________ bond and form a _____________, the final product. Through this process cells create enzymes, produce antibodies, and construct all of the molecules for which our genes code.