MOLECULES of LIFE Matter is anything that has mass and takes up
... monosaccharide is made of carbon, hydrogen, and oxygen with a formula of C6H12O6 or C5H12O5. There are different kinds of monosaccharide molecules. They are different because their atoms are arranged differently. Sugars, starch, glycogen, chitin and cellulose are carbohydrates. The body uses carbohy ...
... monosaccharide is made of carbon, hydrogen, and oxygen with a formula of C6H12O6 or C5H12O5. There are different kinds of monosaccharide molecules. They are different because their atoms are arranged differently. Sugars, starch, glycogen, chitin and cellulose are carbohydrates. The body uses carbohy ...
Chapter 4 BSCS Green Sections 4.7
... 28. Polypeptide chains are coiled and folded into complex ___________________ shapes. The shape of a protein is very critical to its ___________________. 29. The thousands of different enzymes control and direct thousands of different life sustaining ____________ ______________ in all the different ...
... 28. Polypeptide chains are coiled and folded into complex ___________________ shapes. The shape of a protein is very critical to its ___________________. 29. The thousands of different enzymes control and direct thousands of different life sustaining ____________ ______________ in all the different ...
Biochemistry Terms
... Organic molecules are the molecules made of carbon which exist in all living things. Carbon is an element that bonds easily with other atoms and forms the basis for all living organisms and tissues. There are four categories of organic molecules: Carbohydrates, lipids, proteins and nucleic acids. Ea ...
... Organic molecules are the molecules made of carbon which exist in all living things. Carbon is an element that bonds easily with other atoms and forms the basis for all living organisms and tissues. There are four categories of organic molecules: Carbohydrates, lipids, proteins and nucleic acids. Ea ...
CHE 4310 Fall 2011
... 9. The majority of the oxygen we breathe in is ultimately converted into what molecule? What enzyme or complex performs this reaction? ...
... 9. The majority of the oxygen we breathe in is ultimately converted into what molecule? What enzyme or complex performs this reaction? ...
Elements
... • Atom - smallest particle of an element that has the properties of the element • Examples - boron, copper, gold, hydrogen, magnesium, nitrogen, oxygen, silver, sulfur, zinc, etc. ...
... • Atom - smallest particle of an element that has the properties of the element • Examples - boron, copper, gold, hydrogen, magnesium, nitrogen, oxygen, silver, sulfur, zinc, etc. ...
The Chemical & Physical Basis of Life
... It is polar, which gives rise to the following: Cohesion - it clings to itself Adhesion I it clings to other things These properties account of its high surface tension and capillary action. It is the “universal solvent”. It has high heat capacity, latent heat of vaporization and specific heat. ...
... It is polar, which gives rise to the following: Cohesion - it clings to itself Adhesion I it clings to other things These properties account of its high surface tension and capillary action. It is the “universal solvent”. It has high heat capacity, latent heat of vaporization and specific heat. ...
No Slide Title
... • Cu is called the reducing agent because it caused Ag+ to be reduced; and Ag+ is called the oxidizing agent because it caused Cu to be oxidized. ...
... • Cu is called the reducing agent because it caused Ag+ to be reduced; and Ag+ is called the oxidizing agent because it caused Cu to be oxidized. ...
Protein Synthesis Notes File
... 2. ________________ are spliced out of the RNA by units called ___________ (small nuclear ribonuclear proteins) that form a large assembly called a ______________________. C. Following processing, the m-RNA molecule moves into the cytoplasm to a _____________________, where the polypeptide is manufa ...
... 2. ________________ are spliced out of the RNA by units called ___________ (small nuclear ribonuclear proteins) that form a large assembly called a ______________________. C. Following processing, the m-RNA molecule moves into the cytoplasm to a _____________________, where the polypeptide is manufa ...
proteins and protein structure
... material of an organism is expressed as a change in the order of amino acids of a protein. Hemoglobin is comprised of four polypeptide subunits (each has tertiary structure). All four components carry a heme group that can bind to oxygen, and all four components must be present to form hemoglobin. T ...
... material of an organism is expressed as a change in the order of amino acids of a protein. Hemoglobin is comprised of four polypeptide subunits (each has tertiary structure). All four components carry a heme group that can bind to oxygen, and all four components must be present to form hemoglobin. T ...
Bio-Chemistry
... Provide Structure for tissues and organs Make enzymes A protein that changes the rate of chemical reactions Amino Acids are building blocks for proteins Amino Acids are linked together by forming a peptide bond Number and order of amino acids determines the proteins ...
... Provide Structure for tissues and organs Make enzymes A protein that changes the rate of chemical reactions Amino Acids are building blocks for proteins Amino Acids are linked together by forming a peptide bond Number and order of amino acids determines the proteins ...
2.1 i. Explain the difference between atomic number and mass
... Explain covalent bonding. Draw a Lewis diagram for one covalently bonded molecule Define electronegativity Explain the difference between polar and non-polar covalent bonds. Give an example of a polar molecule. Explain hydrogen bonding. What does it mean for water to have a high heat capacity? ...
... Explain covalent bonding. Draw a Lewis diagram for one covalently bonded molecule Define electronegativity Explain the difference between polar and non-polar covalent bonds. Give an example of a polar molecule. Explain hydrogen bonding. What does it mean for water to have a high heat capacity? ...
CHEMISTRY-Text notes
... shell with electrons. • When atoms bond with other atoms, molecules are formed. • When atoms of different elements bond, a compound is formed. • Two types of bonds are ionic bonds and covalent bonds. ...
... shell with electrons. • When atoms bond with other atoms, molecules are formed. • When atoms of different elements bond, a compound is formed. • Two types of bonds are ionic bonds and covalent bonds. ...
2 Chem Packet
... ions in solution 5. bond formed when one or more electrons are transferred from one atom to another 6. monomer of nucleic acid 9. monomer of protein 10. compound that forms hydrogen ions in solution 13. atom of same element that differs in number of neutrons compared to other atoms of the element 15 ...
... ions in solution 5. bond formed when one or more electrons are transferred from one atom to another 6. monomer of nucleic acid 9. monomer of protein 10. compound that forms hydrogen ions in solution 13. atom of same element that differs in number of neutrons compared to other atoms of the element 15 ...
Slide 1
... R varies in size, shape, charge, hydrogen-bonding capacity and chemical reactivity. Only L-amino acids are constituents of proteins ...
... R varies in size, shape, charge, hydrogen-bonding capacity and chemical reactivity. Only L-amino acids are constituents of proteins ...
Chapter 9. Coordination Chemistry 1
... 9.1 History ▪ according to Werner’s theory - two types of bonding in the compound 1) positive charge of the central metal ion is balanced by negative ions 2) ligand attached directly to the TM ion ( = complex ion, = coordination sphere) ▪ Metals can have 1 - 16 atom(s) attached (4 - 6 most common) ▪ ...
... 9.1 History ▪ according to Werner’s theory - two types of bonding in the compound 1) positive charge of the central metal ion is balanced by negative ions 2) ligand attached directly to the TM ion ( = complex ion, = coordination sphere) ▪ Metals can have 1 - 16 atom(s) attached (4 - 6 most common) ▪ ...
The Synthesis of trans-Dichlorobis(ethylenediamine)cobalt(III
... (Here, Oxygen acts as an Oxidizing Agent and is reduced from O0 to O2-.) However, Co3+ is unstable in an aqueous environment, being readily reduced back to Co2+. To prevent this from happening, the resulting Co3+ can be stabilized by adding an Ethylenediamine ligand. Hence, if the oxidation is carri ...
... (Here, Oxygen acts as an Oxidizing Agent and is reduced from O0 to O2-.) However, Co3+ is unstable in an aqueous environment, being readily reduced back to Co2+. To prevent this from happening, the resulting Co3+ can be stabilized by adding an Ethylenediamine ligand. Hence, if the oxidation is carri ...
Identification and Characterization of Multi
... demonstrate oxalate oxidase (OXOX) activity for AhGLP2 protein have failed. The superoxide dismutase (SOD) activity related to AhGLP2 was stable up to 70oC and resistant to high concentration of hydrogen peroxide, which revealed that AhGLP SOD might be a manganesecontaining SOD. Moreover, AhGLP2 was ...
... demonstrate oxalate oxidase (OXOX) activity for AhGLP2 protein have failed. The superoxide dismutase (SOD) activity related to AhGLP2 was stable up to 70oC and resistant to high concentration of hydrogen peroxide, which revealed that AhGLP SOD might be a manganesecontaining SOD. Moreover, AhGLP2 was ...
word
... What kinds of bonds are required for creating macromolecules? What is the bond type between two amino acids joined in a polypeptide or protein What is the bond type between two sugars in an oligosaccharide What is the bond type between two nucleotides in a polynucleotide What is cellulose considered ...
... What kinds of bonds are required for creating macromolecules? What is the bond type between two amino acids joined in a polypeptide or protein What is the bond type between two sugars in an oligosaccharide What is the bond type between two nucleotides in a polynucleotide What is cellulose considered ...
Metalloprotein
Metalloprotein is a generic term for a protein that contains a metal ion cofactor. A large number of all proteins are part of this category.