Biochemistry of Cells. Life Science: Molecular

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Transcription:

Biochemistry of Cells Life Science: Molecular

monomer polymer carbohydrate lipid nucleic acid protein Biochemistry of Cells

Carbon Compounds Carbon is the backbone of biomolecules because of its unique ability to form strong, stable chemical bonds with other atoms.

Macromolecules Macromolecule means giant molecule. The four major macromolecules in living cells: carbohydrates lipids proteins nucleic acids Macromolecules are also called polymers, long molecules composed of repeating subunits called monomers.

Making or Breaking Polymers The chemical mechanisms that cells use to make and break polymers are similar for all classes of macromolecules. Polymerization is building large polymers Digestion is breaking down large polymers.

Polymers Polymers are built through a process called dehydration synthesis. Monomers are connected together by removing an H and an OH from two molecules. great variety of polymers can be built from a small set of monomers monomers can be connected in many combinations like the 26 letters in the alphabet can be used to create a great diversity of words each cell has millions of different macromolecules

Hydrolysis Polymers are degraded into monomers, through a process called hydrolysis.

Enzymes In the body, polymerization and digestion are aided by enzymes. In saliva an enzyme called amylase splits starches into sugars.

Carbohydrates Carbohydrates are made up of carbon, hydrogen, and oxygen atoms (1:2:1 ratio). Main source of energy Provide structure in some cells Simple sugars are called monosaccharides glucose (blood sugar) galactose (milk sugar) fructose (fruit sugar)

Polysaccharides Disaccharides are two sugar molecules connected together. Table sugar (sucrose) is glucose and fructose connected Polysaccharides are large macromolecules formed from monosaccharides. Excess sugar is stored as a polysaccharide. Glycogen (animal starch) Amylum (plant starch)

Cellulose and Chitin

Lipids Lipid polymers are fats, oils, and waxes. store energy biological membranes waterproof coverings chemical messengers (e.g. steroids) Lipids are made mostly from C and H. Not true polymers. The monomers of lipids are glycerol and fatty acids.

Triglyceride (Fat)

Phospholipid (membranes)

Lipids The cell membrane is a two-layer lipid. Working Out Mendelian Genetics The Punnett square is a bookkeeping tool that allows us to work out all possible compositions of male or female gametes for a particular cross. For the sake of simplicity, we will refer to these male and female gametes as sperm and egg, respectively. The specific form of the particle that is passed on to the offspring is called the allele. The boxes in the Punnett square help us to keep track of all possible offspring that can be produced by this particular cross. As with Mendel s experiment on tall versus short pea plants, let s start with the characteristic of plant height. Each individual has two particles, called alleles, that correspond to height. One allele was inherited from each parent. T represents the allele that confers tallness and t represents the allele that is related to short plant height. Recall that Mendel started with pure breeding lines of tall and short plants. Thus, all individuals of our tall line have only T alleles, and all of the individuals of our short line have t alleles. The allelic combinations ( genotypes ) of the tall and short individuals are TT and tt, respectively. Individuals or genotypes that have two copies of the same allele are called homozygotes. In this demonstration, we will cross a tall male with a short female. (We would get the same results if we crossed a tall female with a short male. However, in more complicated crosses, the direction of the cross, with regard to sex, can make a difference.) During fertilization, each parent contributes only one allele for plant height even though each parent has two alleles, which can be the same or different. In our example, both alleles from the male parent are the same (T s, written as TT ). Similarly, both alleles that could be contributed by the female are the same (t s, written as tt ). Here, we are writing the potential male contributions on the top and potential female contributions on the left-hand side. By putting one T in each sperm, the alleles are following Mendel s first law of inheritance: The Law of Segregation. The two alleles that made the male tall are now segregating to produce reproductive cells (gametes) that can combine with contributions from the female to form the next generation. The same is true for the female. Reference: Campbell, N.E. & Reece, J.B. (2002). Biology (6 th ed.). San Francisco: Benjamin Cummings. Image Reference: Baylor College of Medicine, Center For Educational Outreach. (2005). Martha Young, Senior Graphic Designer.

Nucleic Acids Nucleic acids store and transmit genetic information. DNA is Deoxyribonucleic Acid RNA is Ribonucleic Acid The monomers of nucleic acids are called nucleotides.

Nucleic Acids Deoxyribonucleic acid (DNA) is a polymer composed of nucleotide monomers.

Proteins Proteins are polymers made from amino acids. Proteins are instrumental in about everything that an organism does. structural support storage transport of other substances intercellular signaling movement defense against foreign substances Proteins are the main enzymes in a cell and regulate metabolism by selectively accelerating chemical reactions.

Polypeptides Peptide bonds

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