Chapter 2 - Chemical Engineering - Michigan Technological University
... David Shonnard Department of Chemical Engineering ...
... David Shonnard Department of Chemical Engineering ...
Research Focused Undergraduate Education
... Fe (FeSO4) – Chelated to EDTA is most critical. The complex allows for a slow continuous release and avoids free metal generation of radical oxides after reaction with water. Others include: Zn, Cu, B, and Mo. Carbon and Energy Source – cultures do little if any photosynthesis (heterotrophs). Mu ...
... Fe (FeSO4) – Chelated to EDTA is most critical. The complex allows for a slow continuous release and avoids free metal generation of radical oxides after reaction with water. Others include: Zn, Cu, B, and Mo. Carbon and Energy Source – cultures do little if any photosynthesis (heterotrophs). Mu ...
Chapter 26 Nutrition and Metabolism *Lecture PowerPoint
... – No effect on cholesterol and LDL levels – Absorbs water in intestines, softens stool, increases bulk 40% to 100%, stretches colon, and stimulates peristalsis thereby quickening passage of feces – No clear effect on incidence of colorectal cancer – Excessive intake can interfere with absorption of ...
... – No effect on cholesterol and LDL levels – Absorbs water in intestines, softens stool, increases bulk 40% to 100%, stretches colon, and stimulates peristalsis thereby quickening passage of feces – No clear effect on incidence of colorectal cancer – Excessive intake can interfere with absorption of ...
Document
... 1. Formation of stem loop structures; 1-2 and 3-4 is more stable and results in the formation of a termination (hairpin loop) structure/signal. 2. Formation of stem loop structure 2-3 would result in the disruption of stem loops 1-2/3-4. 3. The stem loop structure formed between 2-3 does not result ...
... 1. Formation of stem loop structures; 1-2 and 3-4 is more stable and results in the formation of a termination (hairpin loop) structure/signal. 2. Formation of stem loop structure 2-3 would result in the disruption of stem loops 1-2/3-4. 3. The stem loop structure formed between 2-3 does not result ...
M-path: a compass for navigating potential metabolic pathways
... There are two major computational approaches in designing synthetic metabolic pathways. One is solely dependent on experimentally verified information of enzymes and reactions in current knowledge bases. Synthetic pathways can be designed using a network search from starting to target compounds (Cho ...
... There are two major computational approaches in designing synthetic metabolic pathways. One is solely dependent on experimentally verified information of enzymes and reactions in current knowledge bases. Synthetic pathways can be designed using a network search from starting to target compounds (Cho ...
Gift of Protein Activity
... monomers called amino acids. Our bodies need 20 different amino acids in order to make up all the different proteins required to keep us healthy. The amino acids combine in a different order for each protein. The order of the amino acids determines both the structure and job of the protein. In this ...
... monomers called amino acids. Our bodies need 20 different amino acids in order to make up all the different proteins required to keep us healthy. The amino acids combine in a different order for each protein. The order of the amino acids determines both the structure and job of the protein. In this ...
INSILICO MODELING OF CAPSULAR POLYSACCHARIDE BIOSYNTHESIS PROTEIN STREPTOCOCCUS PNEUMONIAE LIGAND IDENTIFICATION
... module of Discovery Studio under CHARMm force field and the energy function is based on pairwise structural analysis between the nonbonding interactions of protein-ligand complex [14,15]. Finally, ADMET properties of ligands were studied through DISCOVERY STUDIO[16,17]. RESULTS AND DISCUSSION Homolo ...
... module of Discovery Studio under CHARMm force field and the energy function is based on pairwise structural analysis between the nonbonding interactions of protein-ligand complex [14,15]. Finally, ADMET properties of ligands were studied through DISCOVERY STUDIO[16,17]. RESULTS AND DISCUSSION Homolo ...
CHAPTER 26: Lipid Metabolism
... - we said acetyl CoA formed enters the Krebs cycle, or is used to form Ketone bodies - ketaone bodies are formed from the buildup of acetyl coA in the body with depletion of oxaloacetate = krebs cycle can’t start - caused by diabetes or diet low in carbohydrates (fatty acid oxidation increases to ...
... - we said acetyl CoA formed enters the Krebs cycle, or is used to form Ketone bodies - ketaone bodies are formed from the buildup of acetyl coA in the body with depletion of oxaloacetate = krebs cycle can’t start - caused by diabetes or diet low in carbohydrates (fatty acid oxidation increases to ...
No Slide Title
... cysteine. It is often the first residue of a molecule. The N-terminus is mostly positive and thus mostly at the surface. Therefore, methionine, despite being hydrophobic, is often at the surface. We call this a forced marriage. ©CMBI 2001 ...
... cysteine. It is often the first residue of a molecule. The N-terminus is mostly positive and thus mostly at the surface. Therefore, methionine, despite being hydrophobic, is often at the surface. We call this a forced marriage. ©CMBI 2001 ...
15 N- 1 H HSQC spectra as
... that the side chains of the 20 amino acids are different, and these differences will have some effect on the Ha shift. The table at right shows “typical” values observed for different protons in the 20 amino acids. These were measured in unstructured peptides to mimic the environment experienced by ...
... that the side chains of the 20 amino acids are different, and these differences will have some effect on the Ha shift. The table at right shows “typical” values observed for different protons in the 20 amino acids. These were measured in unstructured peptides to mimic the environment experienced by ...
Export To Word
... Transcription and Translation chains. This lesson has a variety of activities to engage students in learning, including virtual manipulatives, tutorials, videos and a summative lab to wrap up information learned. Proteins are essential for all functions necessary for life in organisms. Proteins are ...
... Transcription and Translation chains. This lesson has a variety of activities to engage students in learning, including virtual manipulatives, tutorials, videos and a summative lab to wrap up information learned. Proteins are essential for all functions necessary for life in organisms. Proteins are ...
microbial genetics
... 5′-3′ Semi-discontinuous Synthesis of DNA The work of several scientists in the subsequent years provided the critical inputs on the mechanism of DNA replication. A new strand of DNA is synthesized, by DNA polymerase, always in 5′-3′ direction and thus the incoming nucleotide is added on to the 3′- ...
... 5′-3′ Semi-discontinuous Synthesis of DNA The work of several scientists in the subsequent years provided the critical inputs on the mechanism of DNA replication. A new strand of DNA is synthesized, by DNA polymerase, always in 5′-3′ direction and thus the incoming nucleotide is added on to the 3′- ...
A novel multifunctional O-methyltransferase implicated in a dual
... For this reason, methylating enzymes, O-methyltransferases (OMTs), involved in the lignin biosynthetic pathway, particularly those in angiosperms, have been extensively studied (for reviews, see refs. 5–7) and, recently, have been regarded with considerable interest as targets for biotechnological m ...
... For this reason, methylating enzymes, O-methyltransferases (OMTs), involved in the lignin biosynthetic pathway, particularly those in angiosperms, have been extensively studied (for reviews, see refs. 5–7) and, recently, have been regarded with considerable interest as targets for biotechnological m ...
Document
... – The chemical symbols of the atoms are often missing – It is not easy to tell how many ligands there are in an entry, chain ids are not used consistently – It is not clearly indicated if a molecule has missing atoms, and which atoms are missing ...
... – The chemical symbols of the atoms are often missing – It is not easy to tell how many ligands there are in an entry, chain ids are not used consistently – It is not clearly indicated if a molecule has missing atoms, and which atoms are missing ...
Practical part
... with a red light filter. Optical density must be measured at distinct time after the addition of the last reagent, usually after 5 min. According to obtained results the plot is constructed (a calibration curve). Experiment 2. Protein precipitation with sulfosalicylic acid. Principle. Proteins disso ...
... with a red light filter. Optical density must be measured at distinct time after the addition of the last reagent, usually after 5 min. According to obtained results the plot is constructed (a calibration curve). Experiment 2. Protein precipitation with sulfosalicylic acid. Principle. Proteins disso ...
Chapter 7
... release energy are glucose, fatty acids, glycerol (remember, from triglycerides), and amino acids. Now, recall that when amino acids are used for energy, they must first be deaminated. The remaining carbon chain ends up as glucose OR a derivative of glucose or fatty acids. Glycerol is actually a gl ...
... release energy are glucose, fatty acids, glycerol (remember, from triglycerides), and amino acids. Now, recall that when amino acids are used for energy, they must first be deaminated. The remaining carbon chain ends up as glucose OR a derivative of glucose or fatty acids. Glycerol is actually a gl ...
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.