CHAPTER 5 The Structure and Function of Macromolecules The

... a bilayer. The polar “head” is positioned toward the outside and inside of the cell, which has an affinity for the aqueous environment found both outside and inside the cell. The fatty acid tails of each layer of phospholipids are positioned toward the center of the membrane due to their nonpolar (w ...

Macromolecules and the Molecules of Life

... Macromolecules • Macromolecules • Made of CHNOP • Large molecules formed by joining polymers • Monomers • The basic units that bond together to form molecules essential to life • Bond via condensation reaction • Monomer + monomer = polymer + water • Polymers • Several monomers joined together • Sep ...

CATALYSIS OF BIOCHEMICAL REACTIONS

... (a) “cage effect”: enzyme forms “cage” around both ...

Microbial Metabolism

...  amylase: breaks down starch  protease: breaks down protein  ligase: joining of molecules, uses ATP ...

7.4 Acids and bases

... Reactions of acids Acids undergo several predictable reactions with different reactants. It is important for chemists to know these reactions as they can be involved in the chemical synthesis and also used to identify known substances. For example you may recall producing carbon dioxide and hydroge ...

Uncoupling Proteins Cellular Metabolism Cellular Metabolism

...  May also be important in reducing formation of dangerous Reactive Oxygen Species (ROS)  H+-leakage is activated by O2–.  O2– + 2H+→ H2O2 → H2O + 1/2O2   In brown (thermogenic) fat, UCP1 causes heat generation by burning high-caloric lipid fuel without producing ATP ...

Biochemistry and the Cell - Tanque Verde Unified District

... Questions 114 - 115 refer to an experiment in polypeptide hydrolysis. Polypeptides are placed into warm watery solutions in separate beakers, each containing a different substance that has been isolated from pancreatic juice or intestinal tissue. After two hours, the contents of the individual be ...

Exam Review two KEY

... 43. Where does the Calvin cycle take place? A. Thylakoid membrane B. Cytoplasm C. Stroma D. Granum 44. The replication fork is: A. The Y-shaped region where the DNA is split into two separate strands for coding B. Growing as DNA replication proceeds because synthesis is bidirectional C. The location ...

Patient

... • Review of Systems (RS) • Cardiovascular – Blood Pressure, 145/90. Pulse 70. • Respiratory – Rate 16/min. Breathing through his mouth. Due to a septum deviation, caused by a car accident that broke his nose and jaw. • Nervous – Calm demeanor, balanced person. No history of depression or other diso ...

A Simple Message-Encryption Scheme based on Amino

Biology: Ch. 2

...  Nucleotides have three parts: 5carbon sugar, phosphate group, and a nitrogenous base.  Nucleic acids store and transmit hereditary or genetic information ...

Evidence for Distinct Amino Acid Transport Systems in

... for L-amino acids. For all tested amino acids the Lineweaver-Burk plots were diphasic indicating the presence of more than one carrier for any one amino acid. M oreover distinct transport systems for neutral, acidic and basic amino acids were kinetically characterized. Based on competition ex perim ...

ppt

... Amino acids each have their own unique chemical properties. Some dissolve in water – some do not. This is essential for transport and storage. ...

Canine Osteosarcoma

... Mineral Amino Acid complex Zinc methionine Zinc lysine Manganese methionine Iron methionine Copper lysine Zinc methionine has been studied greatest extend. Not much research on zinc lysine & iron methionine in ruminants. ...

File

... Organic macromolecules called _______ are insoluble in water, are often found in biological membranes and other waterproof coverings, and have the ability to store energy for extended periods of time. A. lipids B. nucleic acids C. carbohydrates D. proteins Use this information for questions 8 & 9: A ...

with O 2 - Pedersen Science

CellEnergyReview 2015

Proseminar 3: Questions and Answers

... there is no specific carrier or receptor to pass the two membranes of capillary endothelial cells, as they exist for e.g. glucose, amino acids, choline, purine bases, nucleosides, hormones, and so on. The absence of such a carrier for free fatty acids certainly does not mean that massive uptake and ...

Midterm Final Review

... • The reactant that an enzyme acts on is called the enzyme’s substrate • The enzyme binds to its substrate, forming an enzymesubstrate complex • The active site is the region on the enzyme where the substrate binds ...

lab2 precipitation of casein at isoelectric point

... of hydrophilic and hydrophobic amino acid residues on the protein’s surface. Proteins that have high hydrophobic amino acid content on the surface have low solubility in an aqueous solvent. • Hydrophilic amino acid like (Arginine, Asparagine, Aspartate, Glutamine, Glutamate, Histidine, Lysine, Serin ...

Topic Two - OoCities

...  Substrate concentration: graph At high substrate concentration, all the active sites are occupied and the enzymes are working at their max speed, so that further increase in substrate concentration will not have an effect. 2.3.4 Define denaturation:  Denaturation: a structural change in a protein ...

PowerPoint 簡報

Slide 1 - KSUMSC

... Remaining carbon skeleton ...

Unit 1.1 Molecules.pps

...  ATG = tyrosine  ACT = stop (no amino acid) ...

What are proteins?

... Secondary structure: areas of folding or coiling within a protein; examples include alpha helices and pleated sheets, which are stabilized by hydrogen bonding. Tertiary structure: Final three-dimensional structure of a protein, which results from a large number of noncovalent interactions between am ...

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Amino acid synthesis

Amino acid synthesis is the set of biochemical processes (metabolic pathways) by which the various amino acids are produced from other compounds. The substrates for these processes are various compounds in the organism's diet or growth media. Not all organisms are able to synthesise all amino acids. Humans are excellent example of this, since humans can only synthesise 11 of the 20 standard amino acids (aka non-essential amino acid), and in time of accelerated growth, arginine, can be considered an essential amino acid.A fundamental problem for biological systems is to obtain nitrogen in an easily usable form. This problem is solved by certain microorganisms capable of reducing the inert N≡N molecule (nitrogen gas) to two molecules of ammonia in one of the most remarkable reactions in biochemistry. Ammonia is the source of nitrogen for all the amino acids. The carbon backbones come from the glycolytic pathway, the pentose phosphate pathway, or the citric acid cycle.In amino acid production, one encounters an important problem in biosynthesis, namely stereochemical control. Because all amino acids except glycine are chiral, biosynthetic pathways must generate the correct isomer with high fidelity. In each of the 19 pathways for the generation of chiral amino acids, the stereochemistry at the α-carbon atom is established by a transamination reaction that involves pyridoxal phosphate. Almost all the transaminases that catalyze these reactions descend from a common ancestor, illustrating once again that effective solutions to biochemical problems are retained throughout evolution.Biosynthetic pathways are often highly regulated such that building-blocks are synthesized only when supplies are low. Very often, a high concentration of the final product of a pathway inhibits the activity of enzymes that function early in the pathway. Often present are allosteric enzymes capable of sensing and responding to concentrations of regulatory species. These enzymes are similar in functional properties to aspartate transcarbamoylase and its regulators. Feedback and allosteric mechanisms ensure that all twenty amino acids are maintained in sufficient amounts for protein synthesis and other processes.

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Amino acid synthesis