Proteins are made of subunits called amino acids and are
... E. What are some other foods that would be a good source of protein? _____________________________ ...
... E. What are some other foods that would be a good source of protein? _____________________________ ...
RNA - TeacherWeb
... • 3. rRNA sends for the tRNA to bring the correct amino acids. • 4.The tRNA anticodons match up with the mRNA ...
... • 3. rRNA sends for the tRNA to bring the correct amino acids. • 4.The tRNA anticodons match up with the mRNA ...
Ch. 3 Vocabs
... carbohydrate: any organic compound that is made of carbon, hydrogen, and oxygen and that provides nutrients to the cells of living things monosaccharide: a simple sugar that is the basic subunit, or monomer, of a carbohydrate disaccharide: a sugar formed from two monosaccharides polysacchari ...
... carbohydrate: any organic compound that is made of carbon, hydrogen, and oxygen and that provides nutrients to the cells of living things monosaccharide: a simple sugar that is the basic subunit, or monomer, of a carbohydrate disaccharide: a sugar formed from two monosaccharides polysacchari ...
Nucleic Acids and Protein Synthesis
... What process does this diagram represent? A. Mutation B. Replication C. Transcription D. Translation ...
... What process does this diagram represent? A. Mutation B. Replication C. Transcription D. Translation ...
Unit 2 Review
... 7. Draw a cell. Label the nucleus, nucleolus, nuclear membrane, chromatin, cytosol (cytoplasm), ribosomes, and Golgi body. 8. State where rRNA, mRNA and tRNA is made and where proteins are made. 9. Sketch a short DNA molecule of 4 base pairs. Label the sugar-phosphate backbone, label the bases you h ...
... 7. Draw a cell. Label the nucleus, nucleolus, nuclear membrane, chromatin, cytosol (cytoplasm), ribosomes, and Golgi body. 8. State where rRNA, mRNA and tRNA is made and where proteins are made. 9. Sketch a short DNA molecule of 4 base pairs. Label the sugar-phosphate backbone, label the bases you h ...
Molecole per la vita
... Most of the substances present in the human body and in other living organisms, animals and plants, are polyfunctional organic compounds, i.e. compounds that have two or more different functional groups in their molecules. Hydroxy acids, keto acids and amino acids are important polyfunctional compou ...
... Most of the substances present in the human body and in other living organisms, animals and plants, are polyfunctional organic compounds, i.e. compounds that have two or more different functional groups in their molecules. Hydroxy acids, keto acids and amino acids are important polyfunctional compou ...
Chapter 15 Review Questions
... 8. RNA contains ribose and DNA contains deoxyribose (one less oxygen on the sugar); DNA stays in the nucleus, RNA travels back and forth between the nucleus and the cytoplasm; DNA is double-stranded, RNA is single-stranded; DNA is helical, RNA is straight or folded in some other shape 9. They are bo ...
... 8. RNA contains ribose and DNA contains deoxyribose (one less oxygen on the sugar); DNA stays in the nucleus, RNA travels back and forth between the nucleus and the cytoplasm; DNA is double-stranded, RNA is single-stranded; DNA is helical, RNA is straight or folded in some other shape 9. They are bo ...
Biochemistry Notes
... A. Carbons Versatility 1. Tetravalent - can form four bonds with other elements 2. May form double bonds and triple bonds. 3. Bond with itself forming Chains of various lengths 4. The chains may branch. 5. May form rings ...
... A. Carbons Versatility 1. Tetravalent - can form four bonds with other elements 2. May form double bonds and triple bonds. 3. Bond with itself forming Chains of various lengths 4. The chains may branch. 5. May form rings ...
IB Topics DNA HL no writing
... • new strands formed on each of the two single strands; • nucleotides added to form new strands; • complementary base pairing; • A to T and G to C; • DNA polymerase forms the new complementary strands; • replication is semi-conservative; • each of the DNA molecules formed has one old and one new ...
... • new strands formed on each of the two single strands; • nucleotides added to form new strands; • complementary base pairing; • A to T and G to C; • DNA polymerase forms the new complementary strands; • replication is semi-conservative; • each of the DNA molecules formed has one old and one new ...
Exam 1
... 19. If a -sandwich motif is found on the surface of a protein, it must be ___________________________ so that one face can interact with the water favorably while the other face forms favorable interactions with the core of the protein. 20. _____________________ is a nucleobase found in RNA but not ...
... 19. If a -sandwich motif is found on the surface of a protein, it must be ___________________________ so that one face can interact with the water favorably while the other face forms favorable interactions with the core of the protein. 20. _____________________ is a nucleobase found in RNA but not ...
9AD Biomolecules
... cells. Lipids are composed of fatty acids (hydrocarbon chains) and are used for energy storage and found in membranes. 3. Proteins are composed of amino acids and have thousands of diverse structures depending on the function the protein conducts for the cell. These include defense, signaling and tr ...
... cells. Lipids are composed of fatty acids (hydrocarbon chains) and are used for energy storage and found in membranes. 3. Proteins are composed of amino acids and have thousands of diverse structures depending on the function the protein conducts for the cell. These include defense, signaling and tr ...
Chemical Principles
... Primary: linear arrangement of the amino acids. Genetically determined. Secondary: localized, repeated folding of each polypeptide. H bonds b/n peptide bonds. Tertiary : three dimensional structure of polypeptide. Interactions b/n side chains of A.A. Quaternary: exits in proteins with 2 or more poly ...
... Primary: linear arrangement of the amino acids. Genetically determined. Secondary: localized, repeated folding of each polypeptide. H bonds b/n peptide bonds. Tertiary : three dimensional structure of polypeptide. Interactions b/n side chains of A.A. Quaternary: exits in proteins with 2 or more poly ...
Nucleic Acids - Spring Branch ISD
... Monosaccharides-(Greek- monos sacchar means one sugar) Ex: glucose, fructose, deoxyribose Monosaccharides range from 3-7 carbons in their “backbone” Glucose functions in the formation of ATP during cellular respiration. It serves as raw materials for amino acids (protein monomers) and fatty acids (l ...
... Monosaccharides-(Greek- monos sacchar means one sugar) Ex: glucose, fructose, deoxyribose Monosaccharides range from 3-7 carbons in their “backbone” Glucose functions in the formation of ATP during cellular respiration. It serves as raw materials for amino acids (protein monomers) and fatty acids (l ...
LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034 Part A
... 11. Bring out the biochemistry of co-enzymes. 12. Explain the reaction characteristics of proteins. 13. Describe the process of catabolism of amino acids. 14. Bring out the biosynthetic pathways of cholesterol and bile. 15. Explain the process and importance of electron transport chain. 16. Describe ...
... 11. Bring out the biochemistry of co-enzymes. 12. Explain the reaction characteristics of proteins. 13. Describe the process of catabolism of amino acids. 14. Bring out the biosynthetic pathways of cholesterol and bile. 15. Explain the process and importance of electron transport chain. 16. Describe ...
Chapter 3: Biochemistry
... Essential Question: How does function depend on structure? I. Carbon Compounds A. Organic compounds: contain carbon atoms that are covalently bonded to other carbon atoms and to other atoms 1. Carbon atoms have 4 positions for bonding to 4 other atoms 2. Results in a huge variety of compounds B. Fun ...
... Essential Question: How does function depend on structure? I. Carbon Compounds A. Organic compounds: contain carbon atoms that are covalently bonded to other carbon atoms and to other atoms 1. Carbon atoms have 4 positions for bonding to 4 other atoms 2. Results in a huge variety of compounds B. Fun ...
Biosynthesis
Biosynthesis (also called biogenesis or anabolism) is a multi-step, enzyme-catalyzed process where substrates are converted into more complex products in living organisms. In biosynthesis, simple compounds are modified, converted into other compounds, or joined together to form macromolecules. This process often consists of metabolic pathways. Some of these biosynthetic pathways are located within a single cellular organelle, while others involve enzymes that are located within multiple cellular organelles. Examples of these biosynthetic pathways include the production of lipid membrane components and nucleotides.The prerequisite elements for biosynthesis include: precursor compounds, chemical energy (e.g. ATP), and catalytic enzymes which may require coenzymes (e.g.NADH, NADPH). These elements create monomers, the building blocks for macromolecules. Some important biological macromolecules include: proteins, which are composed of amino acid monomers joined via peptide bonds, and DNA molecules, which are composed of nucleotides joined via phosphodiester bonds.