In Word
... folded, due to various interactions between the R groups of their constituent amino acids 4. Quaternary structure results when two or more polypeptides combine. 1) Hemoglobin is globular protein with a quaternary structure of four polypeptides. ...
... folded, due to various interactions between the R groups of their constituent amino acids 4. Quaternary structure results when two or more polypeptides combine. 1) Hemoglobin is globular protein with a quaternary structure of four polypeptides. ...
2. Organic Compounds and the Four Biomolec
... 3 phosphate groups attached to it in a chain. The energy is stored because the phosphates each have a negative charge. These charges repel each other, but they are forced to stay together by the covalent ...
... 3 phosphate groups attached to it in a chain. The energy is stored because the phosphates each have a negative charge. These charges repel each other, but they are forced to stay together by the covalent ...
Basic Biochemistry
... Very low density lipoproteins (VLDL) Low density proteins (LDL) – ‘bad cholesterol’ High density lipoproteins (HDL) – ‘good ...
... Very low density lipoproteins (VLDL) Low density proteins (LDL) – ‘bad cholesterol’ High density lipoproteins (HDL) – ‘good ...
Biology I Honors Chapter 3 Biochemistry I. Cells Contain Organic
... folded, due to various interactions between the R groups of their constituent amino acids 4. Quaternary structure results when two or more polypeptides combine. 1) Hemoglobin is globular protein with a quaternary structure of four polypeptides. ...
... folded, due to various interactions between the R groups of their constituent amino acids 4. Quaternary structure results when two or more polypeptides combine. 1) Hemoglobin is globular protein with a quaternary structure of four polypeptides. ...
2.3: Carbon-Based Molecules
... • Contain an amino group and a carboxyl group • Interact to give a protein its shape and function • Peptide bonds form between amino acids to ...
... • Contain an amino group and a carboxyl group • Interact to give a protein its shape and function • Peptide bonds form between amino acids to ...
Protein Synthesis Simulation
... DNA carries the information for the synthesis of all the proteins of an organism. Protein molecules are large and complex, composed of hundreds of amino acids. The sequence of amino acids in a protein molecule is determined by the sequence of the nucleotides in the DNA of an organism. In the first s ...
... DNA carries the information for the synthesis of all the proteins of an organism. Protein molecules are large and complex, composed of hundreds of amino acids. The sequence of amino acids in a protein molecule is determined by the sequence of the nucleotides in the DNA of an organism. In the first s ...
aliphatic amino acid structures
... species that diverged by gene duplication. • Ortholog: genes in different species that derive from a common ancestor. Orthologous genes may or may not have the same function. ...
... species that diverged by gene duplication. • Ortholog: genes in different species that derive from a common ancestor. Orthologous genes may or may not have the same function. ...
Amino acids used in Animal Nutrition
... Since there are only 20 amino acids, several will repeat! A protein is made up of one or more polypeptide chains ...
... Since there are only 20 amino acids, several will repeat! A protein is made up of one or more polypeptide chains ...
3.2.3.AChangingOneNucleotideF
... activity, you observed that sickle cell disease is caused by the mutation of a single nucleotide in the DNA sequence. Hemoglobin has four subunits; it is made by combining two -globin proteins with two -globin proteins ( is the Greek symbol for beta, and is the symbol for alpha). All proteins a ...
... activity, you observed that sickle cell disease is caused by the mutation of a single nucleotide in the DNA sequence. Hemoglobin has four subunits; it is made by combining two -globin proteins with two -globin proteins ( is the Greek symbol for beta, and is the symbol for alpha). All proteins a ...
258927_Fx_DNA-RNA
... 12. What are the names of the gene and the enzyme responsible for the glowing in a firefly’s tail? 13. After finding the correct gene, what does RNA Polymerase actually do? 14. After transcription, what happens to the mRNA strand? (Where in the cell ...
... 12. What are the names of the gene and the enzyme responsible for the glowing in a firefly’s tail? 13. After finding the correct gene, what does RNA Polymerase actually do? 14. After transcription, what happens to the mRNA strand? (Where in the cell ...
Name:
... 12. What are the names of the gene and the enzyme responsible for the glowing in a firefly’s tail? 13. After finding the correct gene, what does RNA Polymerase actually do? 14. After transcription, what happens to the mRNA strand? (Where in the cell ...
... 12. What are the names of the gene and the enzyme responsible for the glowing in a firefly’s tail? 13. After finding the correct gene, what does RNA Polymerase actually do? 14. After transcription, what happens to the mRNA strand? (Where in the cell ...
Elements and Molecules in Organisms
... pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) and three fatty acid chains. This subunit is called a triglyceride. Color the glycerol molecule using the same colors for carbon, hydrogen, and oxygen as you did ...
... pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) and three fatty acid chains. This subunit is called a triglyceride. Color the glycerol molecule using the same colors for carbon, hydrogen, and oxygen as you did ...
Elements Found in Living Things - Fort Thomas Independent Schools
... pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) and three fatty acid chains. This subunit is called a triglyceride. Color the glycerol molecule using the same colors for carbon, hydrogen, and oxygen as you did ...
... pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) and three fatty acid chains. This subunit is called a triglyceride. Color the glycerol molecule using the same colors for carbon, hydrogen, and oxygen as you did ...
Ch 18 reading guide
... 8. In the process, FAD is reduced to _____________ as lipoamide is reoxidized. In turn, _______________ is reoxidized to FAD as NAD+ is reduced to ________________. 9. Which cofactor also serves as a flexible linkage to bring the substrate to all the enzyme active sites? 10. Looking at Figure 18.7, ...
... 8. In the process, FAD is reduced to _____________ as lipoamide is reoxidized. In turn, _______________ is reoxidized to FAD as NAD+ is reduced to ________________. 9. Which cofactor also serves as a flexible linkage to bring the substrate to all the enzyme active sites? 10. Looking at Figure 18.7, ...
Sample exam 1
... b. [α-ketoglutarate]/[glutamine] decreases. c. [Pi] decreases. Make sure to use the word “adenylyltransferase” in your answers. Hint: figure 21-29 on page 744 may be helpful. ...
... b. [α-ketoglutarate]/[glutamine] decreases. c. [Pi] decreases. Make sure to use the word “adenylyltransferase” in your answers. Hint: figure 21-29 on page 744 may be helpful. ...
Pyruvic acid is a valuable chemical intermediate in the production of
... and Bioprocessing. High density, double recombinant, P. pastoris fermentation (100 g cells/L) was achieved at the 30 L scale. After fermentation, these cells were treated with a proprietary process (2) to enable whole-cell biocatalysis and increase enzyme activity (85 U/g cells‡ for GO, 200 U/g cell ...
... and Bioprocessing. High density, double recombinant, P. pastoris fermentation (100 g cells/L) was achieved at the 30 L scale. After fermentation, these cells were treated with a proprietary process (2) to enable whole-cell biocatalysis and increase enzyme activity (85 U/g cells‡ for GO, 200 U/g cell ...
Functions of proteins
... Involves the folding of secondary structures to form a globular (round, compact) protein shape Caused by interactions between the R groups in the amino acids Held together by many bonds (H-bonds, dipole-dipole, London, ionic, covalent) (ex of covalent = disulfide bride bond forms between S o ...
... Involves the folding of secondary structures to form a globular (round, compact) protein shape Caused by interactions between the R groups in the amino acids Held together by many bonds (H-bonds, dipole-dipole, London, ionic, covalent) (ex of covalent = disulfide bride bond forms between S o ...
Chapter 3 - Haiku Learning
... B. Functional groups: clusters of atoms that influence the properties of the molecule 1. Alcohol: OH is attached to carbon and makes the molecule polar 2. Some alcohols are needed by organisms to carry out their life processes ...
... B. Functional groups: clusters of atoms that influence the properties of the molecule 1. Alcohol: OH is attached to carbon and makes the molecule polar 2. Some alcohols are needed by organisms to carry out their life processes ...
Compartmentalisation of metabolic pathways
... • Enzyme concentration is much lower than the substrate concentration • The rate of an enzyme-catalyzed reaction is directly dependent upon the enzyme concentration • Induction by substrate or repression by product (on the level of transcription) – xenobiotics → induction of cyt P450 – heme → repres ...
... • Enzyme concentration is much lower than the substrate concentration • The rate of an enzyme-catalyzed reaction is directly dependent upon the enzyme concentration • Induction by substrate or repression by product (on the level of transcription) – xenobiotics → induction of cyt P450 – heme → repres ...
Macromolecule Expert Sheets
... 3. What kinds of atoms are found in lipids? Carbon, hydrogen, and oxygen (also phosphorous and sometimes nitrogen in phospholipids) 4. Explain why oils don’t dissolve in water. Their fatty acid components have long hydrocarbon tails that are hydrophobic. 5. What smaller molecules make up a fat molec ...
... 3. What kinds of atoms are found in lipids? Carbon, hydrogen, and oxygen (also phosphorous and sometimes nitrogen in phospholipids) 4. Explain why oils don’t dissolve in water. Their fatty acid components have long hydrocarbon tails that are hydrophobic. 5. What smaller molecules make up a fat molec ...
1. Which of the following is not a feature of scientific hypotheses? A
... C) Metabolic pathways in eukaryotes occur in the cytoplasm. D) Metabolic pathways vary from organism to organism. E) Each metabolic pathway is regulated by specific enzymes. ...
... C) Metabolic pathways in eukaryotes occur in the cytoplasm. D) Metabolic pathways vary from organism to organism. E) Each metabolic pathway is regulated by specific enzymes. ...
Assignment CHE-09 TMA-01,02 Year 2005
... Pernicious anaemia results due to the lack of trace element _________ which is a part of vitamin ________. ii) The visual process in human beings during night involves a conjugated protein called __________. iii) The active coenzymic form of thiamine is called _______________________ which participa ...
... Pernicious anaemia results due to the lack of trace element _________ which is a part of vitamin ________. ii) The visual process in human beings during night involves a conjugated protein called __________. iii) The active coenzymic form of thiamine is called _______________________ which participa ...