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Biomolecules Class 11 Notes Biology Chapter 9

Carbohydrates:
(1) e.g. sugars, glycogen (animal starch), plant starch and cellulose.
(2) Source of carbohydrate: Mainly photosynthesis. It exists only in 1% but constitutes 80% of the dry weight of plants.
(3) Composition: It consists of carbon, hydrogen and oxygen in the ratio CnH2N. It is also called saccharide and sugars are their basic components.
Biomolecules Class 11 Notes Biology Chapter 9

(4) Properties of monosaccharide 
(a) Monosaccharides are colourless, sweet tasting, solids.
(b) Due to asymmetric carbon, they exist in different isomeric forms. They can rotate polarized light hence they are dextrorotatory and leavorotatory.
(c) D-glucose after reduction gives rise to a mixture of polyhydroxy alcohol, sorbitol or mannitol.
(d) The sugars with a free aldehyde or ketone group reduce Cu++ to Cu+ (cupric to cuprous)
(e) Sugars show oxidation, esterification and fermentation.
(f) The aldehyde or ketone group of a simple sugar can join an alcoholic group of another organic compound bond C-O-C the process involves loss of water and is called condensation (H-O-H) or H+OH → H2O.

Lipids
(1) Term lipid was coined by Bloor.
(2) These are esters of fatty acids and alcohol.
(3) They are hydrophobic insoluble in water but soluble in benzene, ether and chloroform.
(4) Lipids are classified into three groups:–
(A) Simple lipids: These are the esters of fatty acids and glycerol. Again they are typed as:–
(a) Fats and Oils: (Natural lipids or true fats). These are triglycerides of fatty acid and glycerol. Fats which are liquid at room temperature are called oils. Oils with polyunsaturated fatty acids are called polyunsaturated e.g. sunflower oil, lower blood cholesterol.
(b) Fatty acids: Obtained by hydrolysis of fats. Formic acid is simplest fatty acid (HCOOH). These are of 2 types:–
(i) Saturated fatty acids: The fatty acids which do not have double bond in between carbon atoms.e.g. butyric acid, palmitic acid,hexanoic acid, etc. They have high melting points, solid at room temperature and increase blood cholesterol.
(ii) Unsaturated fatty acids: The fatty acids which have double bonds in carbon atoms. e.g. 8 hexadecanoic acid, 9 octadecanoic acid etc. They have lower melting points mostly found in plant fats, liquid at room temperature and lower the blood cholesterol.
(c) Waxes: These are simple lipids composed of one molecule of long chain fatty acid and long chain monohydric alcohol. Waxes have high melting point, insoluble in water, resistant to atmospheric oxidation, chemically inert and not digested by enzymes. They reduce rate of transpiration by making plant tissue water proof and work as excellent lubricant.
(B) Compound lipids: They contain some additional or element. Group with fatty acid and alcohol on the basis of group they may be of following types:
(a) Phospholipids: These contain phosphoric acid. It helps in transport, metabolism, blood clotting and permeability of cell membrane. It is a bipolar molecule i.e. phosphate containing end is hydrophilic whereas fatty acid molecules represent hydrophobic (non-polar tail).
(b) Glycolipids: These contain nitrogen and carbohydrate beside fatty acids. Generally found in white matter of nervous system. e.g. sesocine frenocin.
(c) Chromolipids: It includes pigmented lipids e.g. carotene.
(d) Aminolipids: Also known as sulpholipids. It contains sulphur and amino acids with fatty acid and glycerol. Cutin and suberin are also compound lipids resistant to water and also provide mechanical support in plants.
(iii) Derived lipids: These are obtained by hydrolysis of simple and compound lipids.
(5) Functions of lipids
(a) Oxidation of lipids yields comparatively more energy in the cell than protein and carbohydrates. 1gm of lipids accounts for 39.1 KJ.
(b) The oil seeds such as groundnut, mustard, coconut store fats to provide nourishment to embryo during germination.
(c) They function as structural constituent i.e. all the membrane systems of the cell are made up of lipoproteins.
(d) Amphipathic lipids are emulsifier.
(e) It works as heat insulator.
(f) Used in synthesis of hormones.
(g) Fats provide solubility to vitamins A, D, E, and K.

Amino Acids
(1) Amino acids are normal components of cell proteins (called amino acid).
(2) They are 20 in number specified in genetic code and universal in viruses, prokaryotes and eukaryotes.
(3) Structure and Composition : Amino acids are basic units of protein and made up of C, H, O, N and sometimes S. Amino acids are organic acids with a carboxyl group (–COOH) and one amino group(-NH2) on the a -carbon atom. Carboxyl group attributes acidic properties and amino group gives basic ones. In solution, they serve as buffers and help to maintain pH. General formula is R-CHNH2.COOH.
(4) Classification
Based on R-group of amino acids
(a) Simple amino acids: These have no functional group in the side chain. e.g. glycine, alanine , leucine, valine etc.
(b) Hydroxy amino acids: They have alcohol group in side chain. e.g. threonine, serine, etc.
(c) Sulphur containing amino acids: They have sulphur atom in side chain. e.g. methionine, cystenine.
(d) Basic amino acids: They have basic group (-NH2) in side chain. e.g. lysine, arginine.
(e) Acidic amino acids: They have carboxyl group in side chain. e.g. aspartic acid, glutamic acid.
(f) Acid amide amino acids: These are the derivatives of acidic amino acids. In this group, one of the carboxyl group has been converted to amide (-CONH2). e.g. asparagine, glutamine.
(g) Heterocyclic amino acids: These are the amino acids in which the side chain includes a ring involving at least one atom other than carbon. e.g. tryptophan, histidine.
(h) Aromatic amino acids: They have aromatic group (benzene ring) in the side chain. e.g. phenylalanine, tyrosine, etc.

Nucleotides:
(1) Structurally a nucleotide can be regarded as a phosphoester of a nucleoside.
(2) A combination of nitrogens base and a sugar is called nucleoside and combination of a base, a sugar and phosphate group is known as nucleotide.
Biomolecules Class 11 Notes Biology Chapter 9

(3) Functions of nucleotides: Following are the major functions of nucleotides.
(a) Formation of nucleic acids: Different nucleotides polymerize together to form DNA and RNA.
(b) Formation of energy carrier: They help in formation of ATP,AMP, ADP, GDP, GTP, TDP,TTP, UDP, etc. which on breaking release energy.
(c) Formation of Coenzymes: Coenzymes like NAD, NADP, FMN, FAD, CoA, etc are formed. Coenzymes are non-proteinaceous substance necessory for the activity of the enzymes.

Ptroteins
(1) The word protein was coined by Berzelius in 1838 and was used by G. J. Mulder first time 1840.  
(2) 15% of protoplasm is made up of protein. Average proteins contain 16% nitrogen, 50–55% carbon, oxygen 20–24%, hydrogen 7% and sulphur 0.3 – 0.5%. Iron, phosphorous, copper, calcium, and iodine are also present in small quantity.
(3) Structure of proteins: It is due to different rearrangement of amino acids. When carboxyl group of one amino acid binded with amino group (– NH2) of another amino acid the bond is called peptide bond. A peptide may be dipeptide, tripeptide and polypeptide. The simplest protein is Insulin. According to Sanger (1953) insulin consists of 51 amino acids. A protein can have up to four level of conformation.
(i) Primary structure: The primary structure is the covalent connections of a protein. It refers to linear sequence, number and nature of amino acids bonded together with peptide bonds only. e.g. ribonuclease, insulin, haemoglobin, etc.
(ii) Secondary structure: The folding of a linear polypeptide chain into specific coiled structure (α - helix) is called secondary structure and if it is with intermolecular hydrogen bonds the structure is known as ß - pleated sheet. α - helical structure is found in protein of fur, keratin of hair claws, and feathers. ß - pleated structure is found in silk fibres.
(iii) Tertiary structure: The arrangement and interconnection of proteins into specific loops and bends is called tertiary structure of proteins. It is stabilized by hydrogen bond, ionic bond, hydrophobic bond and disulphide bonds. It is found in myoglobin (globular proteins).
(iv) Quaternary structure: It is shown by protein containing more than one peptide chain. The protein consists of identical units. It is known as homologous quaternary structure e.g. lactic dehydrogenase. If the units are dissimilar, it is called as heterogeneous quaternary structure e.g. hemoglobin which consists of two α - chains and two ß - chains.

Nucleic Acid
(1) Definition: Nucleic acids are the polymers of nucleotide made up of carbon, hydrogen, oxygen, nitrogen and phosphorus and which controls the basic functions of the cell.
(2) These were first reported by Friedrich Miescher (1871) from the nucleus of pus cell.
(3) Altmann called it first time as nucleic acid.
(4) They are found in nucleus. They help in transfer of genetic information.
(5) Types of nucleic acids: On the basis of nucleotides i.e. sugars, phosphates and nitrogenous bases, nucleic acids are of two types which are further subdivided. These are DNA (Deoxyribonucleic acid) and RNA (Ribonucleic acid).
(A) DNA (Deoxyribonucleic acids)
(i) Types of DNA: It may be linear or circular in eukaryotes and prokaryotes respectively.
(a) Palindromic DNA: The DNA helical bears nucleotide in a serial arrangement but opposite in two strands.
-T-T-A-A-C-G-T-T-A-A….
-A-A-T-T-G-C-A-A-T-T….
(b) Repetitive DNA: This type of arrangement is found near centromere of chromosome and is inert in RNA synthesis. The sequence of nitrogenous bases is repeated several times.
(c) Satellite DNA: It may have base pairs up to 11 – 60bp and are repetitive in nature. They are used in DNA matching or finger printing (Jefferey). In eukaryotes, DNA is deutrorotatory and sugars have pyranose configuration.
(B) RNA or Ribonucleic acid: RNA is second type of nucleic acid which is found in nucleus as well as in cytoplasm i.e. mitochondria, plastids, ribosomes etc. They carry the genetic information in some viruses. They are widely distributed in the cell.

Enzymes

  • Enzymes (Gk. en = in; zyme = yeast) are proteinaceous substances which are capable of catalysing chemical reactions of biological origins without themselves undergoing any change.
  • Enzymes are biocatalysts.
  • An enzyme may be defined as "a protein that enhances the rate of biochemical reactions but does not affect the nature of final product."
  • Maximum enzymes (70%) in the cell are found in mitochondrion. The study of the composition and function of the enzyme is known as enzymology.

Classification of Enzymes
Biomolecules Class 11 Notes Biology Chapter 9
Inorganic part of enzyme acts as prosthetic group in few enzyme they are called activator. These activators are generally metals. Hence these enzymes are called "Metallo enzyme" such as
Biomolecules Class 11 Notes Biology Chapter 9

Mode of Action of Enzymes
There are two views regarding the mode of enzyme action:
(1) Lock and key hypothesis
(2) Induced fit hypothesis
(1) Lock and key hypothesis: The hypothesis was put forward by Emil Fisher (1894). According to this hypothesis the enzyme and its substrate have a complementary shape. The specific substrate molecules are bound to a specific site of the enzyme molecule.
(2) Induced fit hypothesis: This hypothesis was proposed by Daniel, E. Koshland (1959).
According to this view, the active sites of an enzyme are not rigid. When the substrate binds to enzyme, it may induce a change in shape of the enzyme molecule in such a way that it is fit for the substrate-enzyme interaction. The change in shape of the enzyme molecules can put strain on the substrate. This stress may help bonds to break, thus promoting the reaction.
Biomolecules Class 11 Notes Biology Chapter 9

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FAQs on Biomolecules Class 11 Notes Biology Chapter 9

1. What are biomolecules?
Ans. Biomolecules are organic molecules that are essential for the structure and function of living organisms. They include carbohydrates, lipids, proteins, and nucleic acids.
2. Why are biomolecules important?
Ans. Biomolecules play crucial roles in various biological processes. Carbohydrates provide energy, lipids store energy and serve as structural components, proteins perform diverse functions such as enzymatic reactions and cell signaling, and nucleic acids store and transmit genetic information.
3. How are biomolecules formed?
Ans. Biomolecules are formed through various biochemical reactions. Carbohydrates are synthesized through processes like photosynthesis, lipids are produced through fatty acid biosynthesis, proteins are formed by the ribosomes in cells through translation, and nucleic acids are synthesized through DNA replication and transcription.
4. What is the significance of biomolecules in medicine?
Ans. Biomolecules are extensively studied in medicine as they are involved in various diseases and can be targeted for therapeutic interventions. Understanding the structure and function of biomolecules helps in developing drugs and treatments for diseases like cancer, diabetes, and genetic disorders.
5. How can biomolecules be analyzed and studied?
Ans. Biomolecules can be analyzed and studied using various techniques such as spectroscopy, chromatography, mass spectrometry, and molecular biology methods. These techniques allow researchers to determine the structure, composition, and function of biomolecules, aiding in further understanding their roles in biological systems.
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