Bacteria: Advantages:

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    Bacteria are our friends as they are associated with several advantages in various forms. Some of them are:

  1. Bacteria & Ecosystem: Saprophytic bacteria along with saprophytic fungi perform useful role of decomposers in ecosystem. Decomposition of organic matter in absence of O2 is called putrefaction and breakdown of organic matter in presence of O2 is called decay. Highly un-decomposed organic matter is litter; partly decomposed organic matter is humus and highly decomposed organic matter is called humus.
  2. Bacteria & Industry: Lactobacillus laciti and Streptococcus lacti convert milk into curd. Acetobacillus aciti changes sugar solution into vinegar. Flavour in tea leaves by Micococcus condensa and in tobacco leaves by Micococus megatherium develops due to fermentation activity of bacteria. Retting involves separation of plant fibers after decomposition of non-cellulosic materials by various species of Closteridium like C.butyricum and C.felsineum.
  3. Bacteria and N-cycle system: Nitrogen is first essential element in terms of requirement for proper growth of plants. It is required in protein synthesis, chlorophyll synthesis and also in synthesis of nucleic acids. Plants cannot utilize molecular nitrogen directly. The plants mainly in the form of nitrates absorb it. Nitrogen changes into nitrate via ammonia formation. Some bacteria control N-cycle, which comprises Nitrogen fixation, Nitrification and Denitrification. Nitrogen fixation involves conversion of N2 into ammonia. Bacteria which participate in N-fixation are Closteridium, Azotobacter and Rhizobium etc. Closteridium and Azotobacter and asymbiotic biological N fixing bacteria whereas Rhizobium is symbiotic biological N-fixing bacteria are present in root nodules of Leguminous or papilionaceous plants. Klebsiella is leaf nodule N-fixing bacteria. Frankia is non-leguminous N-fixing bacteria 'nif' genes control biological N-fixation. Mechanism of biological N-fixation by bacteria was first studied by Heijerinck whereas Winogradasky studied biological N2 fixation by some blue green algae.
    • Conversion of NH3 into nitrite is termed as initial stage of Nitrification. A bacterium which participates in initial stage of nitrification is nitrosomonas Conversions of nitrite into nitrate is called final stage of nitrification. Nitrobacter is the bacteria which participates in final stage of nitrification.
    • Your browser may not support display of this image. Release of Nitrogen from Macromolecules of Nitrogen is called denitrification. Bacillus denitrificans is the bacteria involved in denitrification. The summary of Nitrogen cycle is given in the following figure:



















    Summary of various N-fixing bacteria:

  • Azotobacter, Thiobacillus, Mycobacterium etc. : Free living & aerobic.
  • Closteridium Klebsiella : Free living & anaerobic.
  • Rhizobium, Aopzprirllium Frankia : Symbiotic & anaerobic
  • Citrobacter : Symbiotic and anaerobic
    • Bacteria & Antibiotics: Though first antibiotic penicillin was obtained from ascomycetes fungus Penicillium notatum by Alexander Flemming in 1929, yet soil-borne bacteria Streptomyces of actinomycetes (ray fungi) are rich source of various types of antibioitics. Antibiotics are chemical inhibition. The term 'antibiotic' was coined by Salman Waksman. Antibiotics are known as chemotherapeutic agents. Some of the antibiotics extracted from bacteria are bacitracin, subtilin, polymyxin, gramicidin etc.

    Salient features of some antibiotics chemotherapeutic agents

    Name of the antibiotics Name of the discover Source of antibiotics Action of antibiotics
    Penicillin Alexander Flemming P. notatum

    P. chrysogenum

    Breaks muco complex cell wall of bacteria.
    Streptomycin Waksman Streptomyces griesus Inhibits synthesis of 30S fragment of ribosome in bacteria.
    Erythromycin Mc Guire S. erythreus Inhibits synthesis of 50S fragment of ribosome in bacteria
    Chloromycin Burkholder S. venezualae Inhibits initiation of protein synthesis in bacteria.
    Aureomycin Duggar S. auerofaciens Inhibits formation of tRNA amino acid complex.
    Terramycin Pfizer Ltd. S. rimosus Inhibits formation of tRNA amino acid complex.

    Penicillin is not broad spectrum antibiotic because it is more active on gram positive bacteria, less effective on gram negative bacteria. Streptomycin is first brad spectrum antibiotic which is equally active on gram positive and gram negative bacteria both.

    • Bacteria & Miscellaneous uses
  1. Aerobacter aerogenes decomposes DDT whereas Flavobacterium and Corynebacterium decompose 2, 4-D etc. DDT and 2, 4-D are non-biodegradable chemicals, which may be lethal even.
  1. Bacillus pudita, pseudomonas and some other oil-eating bacteria help in cleaning up oil spills. They thus help in preventing water pollution of seas/oceans caused due to oil refineries.
  2. Anand Mohan Chakroborty has developed genetically engineered bacteria named Superbug that feeds on oil spills.
  3. Bacterium Methylophylus methylotropous is source of single cell protein (SCP) the product was called 'Pruteen'. Fungus Fusarium is also used for the purpose i.e. preparation of mycoprotein on larger scale.
  4. Batch culture & continuous culture are two main methods of fermentation on larger scale. The former is closed system whereas latter is open system.

Bacteria: Disadvantages

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  • Bacteria are our 'foes' as they are associated with several diseases of plants and animals including man due to parasitic mode of nutrition of some bacteria. Bacterial attack is less severe on plants than it is on animals.
  • Important bacterial diseases on plants are:
    1. Canker of Citrus (citrus canker) Xanthomonas citri
    2. Angular leaf spot of cotton X. malvacearum
    3. Fire blight of apples Erwinnia amylovora
    4. Crown gall of crops Agrobacterium tumefaciens
    5. Tondu of wheat Corynebacterium tritici
      • Important bacterial diseases on man are:
    6. Cyphillis Tryponema pallidum
    7. Plague (Black Death) Pasteurella pestis (Y. pestis)
    8. Chlorea Vibrio cholerae
    9. Anthrax Bacillus anthracis
    10. Pneumonia Diplococcus pneumonae
    11. Tuberculosis (TB) Mycobacterium tuberculoses
    12. Typhoid (Enteric fever) Salmonella typhi
    13. Bacterial dysentery Bacillus dysentrae (Shigella)
    14. Amoeboid dysentery Entamoeba histolytica (Protozoa)
    15. Tetanus (Lock jaw) Closteridium tetani
    16. Ptomaine (deadly food poisoning) Closteridium botulinum
    17. Leprosy Bacillus lepri (Mycobacterium lepri)
    18. Diptheria Corynebacterium diptherae
    19. Erysepalas (deadly blood Streptococcus

    Poisoning; Death of RBC's)

    1. Whooping cough Bordetella partusis
    2. Gonorrhoea Neisseria gonorrhoae

    Bacterial diseases like cholera, typhoid, dysentery etc are water borne diseases: tuberculosis, plague etc are air-borne diseases whereas disease like tetanus spreads through wounds. Syphilis is transmitted through sexual contact. Transmission of leprosy through contact is a matter of dispute. India based Mother Teresa was awarded Nobel Prize for her service to leprosy patients in West Bengal and other parts of India

Bacteria : Forms

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  1. On the basis of shape, bacteria may be cocci (Singular coccus), Bacilli (Bacillus), Vibrio, Spirillum etc. Cocci are spherical bacteria, smallest in size. They may be single (monoococucus), in pairs (Diplococcus), in chains (streptococcus), in bunches (staphylococcus) or cuboid (sar cinnae). Bacteria causing pneumonia are Diplococcus Bacilli are rod shaped bacteria they may be single or in chains (Streptobacilli). Majority of parasitic bacteria are rod shaped bacteria. Streptobacilli surrounded by mucilaginous sheath form Zoogloea. Vibro are comma shaped bacteria. Bacteria causing cholera are vibrio bacteria. Spirillum and spirochaete are zigzag spring like bacteria, Spirillum volutans is recognized as largest bacteria. The terms like coccus, bacillus, vibrio etc were coined by Mueller.
  2. On the basis of cilia, a bacterial cell may be:

    Your browser may not support display of this image. Atrichous : Bacterial cell without cilia.

    Your browser may not support display of this image. Monotrichour : Bacteria cell with single cilia.

    Your browser may not support display of this image. Lopotrichous : Bacteria cell with tuft of cilia at one end.

    Your browser may not support display of this image. Cephalotrichous : Bacterial cell with tuft of cilia at both the ends.

    Your browser may not support display of this image. Your browser may not support display of this image. Amphitrichous : Bacterial cell with one cilia at both the ends.

    Peritrichous : Bacterial cell with cilia throughout the body.

    Bacteria causing cholera disease is comma shaped & Lophotrichous.

  1. On the basis of nutrition, bacteria may heterotrophy or autotroph. Heterotroph bacteria are further divided as saprophytic bacteria & parasitic bacteria. Similarly, autotroph bacteria are further divided as chemosynthetic and photosynthetic bacteria.
    • Bacteria, which obtain their food from dead organic matter, are saprophytic bacteria. They perform significant role of decomposers in ecosystem. Bacteria, which obtain their food from other living entity, are called parasitic bacteria. The living entity, which provides food to parasite, is termed as host. Host-parasite relation is specific. Parasite is called pathogen when it spreads in host.
    • Bacteria, which obtain their food through the inorganic reactions in which they participate, are called chemosynthetic bacteria. They are named after the inorganic reactions, us that they are involved. Thus, N-Bacteria S-Bacteria & Fe-Bacteria etc are examples of chemosynthetic bacteria. Chemosynthetic bacteria are basically autotroph but do not require pigment chlorophyll for energy requirement. Chemosynthetic bacteria will survive alone if chlorophyll pigment disappears from the world; rest will perish.
    • Bacteria, which obtain chemical energy through glucose formation, are called photosynthetic bacteria. They are autotrophs and depend on chlorophyll like pigments i.e., Bacteriochlorophyll & chlorobium chlorophyll (Bacterio viridies) for glucose formation. Green-S-Bacteria, Purple-S-Bacteria & Rhodospirillium etc. are examples of photosynthetic bacteria.

    Comparison between normal and bacterial photosynthesis
    Normal Photosynthesis Bacterial Photosynthesis
    1. Raw materials are CO2 & H2O 1. Raw materials are CO2 & H2S
    2. H for reduction of CO2 into glucose comes from H2O
      2. H- for reduction of CO2 into glucose comes from H2S.
    3. Principal pigment is chlorophyll a
      3. Principal pigment Bacteriochlorophyll a.
    4. Intermediate H-acceptor is NADP
      4. Intermediate H-acceptor is NAD.
    5. PS I & PS II both are present in light phase.
      5. PS I only is present in light phase; PS II is absent.
    6. O2 is released as by product
      6. S is released as by product
    7. Biochemical reaction

    6CO2 + 12H2O = C6H12O6+6H2O+6O2

      7. Biochemical reaction.

      6CO2 + 12H2O = C6H12O6+6H2O+12S

    Generalised equation for both of the above

    6CO2 + 12H2A = C6H12O6 + 6H2O + 12A

    A may be oxygen or sulfur.


    Photosynthesis in bacteria was first studied by Van Neil of Germany who was first to support the idea of Robino Hill that O2 released in normal photosynthesis comes from H2O and not from CO2.

Bacteria : Forms

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  1. On the basis of shape, bacteria may be cocci (Singular coccus), Bacilli (Bacillus), Vibrio, Spirillum etc. Cocci are spherical bacteria, smallest in size. They may be single (monoococucus), in pairs (Diplococcus), in chains (streptococcus), in bunches (staphylococcus) or cuboid (sar cinnae). Bacteria causing pneumonia are Diplococcus Bacilli are rod shaped bacteria they may be single or in chains (Streptobacilli). Majority of parasitic bacteria are rod shaped bacteria. Streptobacilli surrounded by mucilaginous sheath form Zoogloea. Vibro are comma shaped bacteria. Bacteria causing cholera are vibrio bacteria. Spirillum and spirochaete are zigzag spring like bacteria, Spirillum volutans is recognized as largest bacteria. The terms like coccus, bacillus, vibrio etc were coined by Mueller.
  2. On the basis of cilia, a bacterial cell may be:

    Your browser may not support display of this image. Atrichous : Bacterial cell without cilia.

    Your browser may not support display of this image. Monotrichour : Bacteria cell with single cilia.

    Your browser may not support display of this image. Lopotrichous : Bacteria cell with tuft of cilia at one end.

    Your browser may not support display of this image. Cephalotrichous : Bacterial cell with tuft of cilia at both the ends.

    Your browser may not support display of this image. Your browser may not support display of this image. Amphitrichous : Bacterial cell with one cilia at both the ends.

    Peritrichous : Bacterial cell with cilia throughout the body.

    Bacteria causing cholera disease is comma shaped & Lophotrichous.

  1. On the basis of nutrition, bacteria may heterotrophy or autotroph. Heterotroph bacteria are further divided as saprophytic bacteria & parasitic bacteria. Similarly, autotroph bacteria are further divided as chemosynthetic and photosynthetic bacteria.
    • Bacteria, which obtain their food from dead organic matter, are saprophytic bacteria. They perform significant role of decomposers in ecosystem. Bacteria, which obtain their food from other living entity, are called parasitic bacteria. The living entity, which provides food to parasite, is termed as host. Host-parasite relation is specific. Parasite is called pathogen when it spreads in host.
    • Bacteria, which obtain their food through the inorganic reactions in which they participate, are called chemosynthetic bacteria. They are named after the inorganic reactions, us that they are involved. Thus, N-Bacteria S-Bacteria & Fe-Bacteria etc are examples of chemosynthetic bacteria. Chemosynthetic bacteria are basically autotroph but do not require pigment chlorophyll for energy requirement. Chemosynthetic bacteria will survive alone if chlorophyll pigment disappears from the world; rest will perish.
    • Bacteria, which obtain chemical energy through glucose formation, are called photosynthetic bacteria. They are autotrophs and depend on chlorophyll like pigments i.e., Bacteriochlorophyll & chlorobium chlorophyll (Bacterio viridies) for glucose formation. Green-S-Bacteria, Purple-S-Bacteria & Rhodospirillium etc. are examples of photosynthetic bacteria.

    Comparison between normal and bacterial photosynthesis
    Normal Photosynthesis Bacterial Photosynthesis
    1. Raw materials are CO2 & H2O 1. Raw materials are CO2 & H2S
    2. H for reduction of CO2 into glucose comes from H2O
      2. H- for reduction of CO2 into glucose comes from H2S.
    3. Principal pigment is chlorophyll a
      3. Principal pigment Bacteriochlorophyll a.
    4. Intermediate H-acceptor is NADP
      4. Intermediate H-acceptor is NAD.
    5. PS I & PS II both are present in light phase.
      5. PS I only is present in light phase; PS II is absent.
    6. O2 is released as by product
      6. S is released as by product
    7. Biochemical reaction

    6CO2 + 12H2O = C6H12O6+6H2O+6O2

      7. Biochemical reaction.

      6CO2 + 12H2O = C6H12O6+6H2O+12S

    Generalised equation for both of the above

    6CO2 + 12H2A = C6H12O6 + 6H2O + 12A

    A may be oxygen or sulfur.


    Photosynthesis in bacteria was first studied by Van Neil of Germany who was first to support the idea of Robino Hill that O2 released in normal photosynthesis comes from H2O and not from CO2.

Bacteria: Introduction

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  1. Study of Bacteria is called 'Bacteriology'. Leeuwenhoek is recognized as pioneer worker in Bacteriology. Pasteur, Koch & Lister are other earlier workers in Bacteriology.
  2. The term bacteria were coined by Ehrenberg for the smaller 'animalcules' or the 'wretched beasts' of Leeuwenhoek. Bacteria are found everywhere and in all sorts of climates however they do not survive in acidic medium of Pickle solution or highly concentrated sucrose solution due to plasmolysis.
  3. Bacteria activity is reduced greatly at low temperature; this explains why foodstuff remains safe for longer period in cold devices like fridge and refrigerators etc. Bacteria behave in different manner in different range of temperature.

Natural Defenses against Viral Infections:

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    1. Interferons (Isaacs and Lindenmann, 1957). Interferons are antiviral proteins (a class of glycoproteins) which diffuse out from infected cells, enter into the cells in the neighbourhood and impart a defense mechanism to these cells against viral infections by inhibiting the synthesis of viral proteins. These are therefore used for therapeutic and preventive purposes in viral infections, interferons are always secreted by host cells against viral infection.

    2. Body Immunity. Viruses are good antigens to induce active production of specific antibodies (by lymphocytes).

    3. Immunoprophylaxis – Vaccines: Vaccines contain inactivated (attenuated) virions, which cannot cause the concerned diseases, but still act as antigens to induce antibody production by the immune system of the body.

    4. Chemotherapy – Antiviral Drugs: The chemotherapeutic agents antibiotics which are used in the treatment and control of bacterial diseases are ineffective for viral diseases. However, some antiviral drugs have been prepared. These include (i) Thiosemicarbozone (for treatment and prevention of smallpox), (ii) Ribavirin or Virozole (for influenza),
    (iii) Deoxyuridines, Acylovir (for herpes), (iv) Foscarnet (for hepatitis-B) etc.

    2g) Viruses: Study of Bacteriophages

  1. Discovery of bacteriophages is associated with Twort when he reported viral disease in bacteria. The term bacteriophages was coined by De Herelle. They are viruses, which attack bacteria. A typical bacteriophage looks like a tadpole/sperm comprising a hexagonal head of protein and a tail also a protein they show binal symmetry. Head is 1000A long and 650A in width; length of the tail is 1000A. Thus, head and tail are equal in length. Infective part of the bacteriophage in most of the cases is ds-linear DNA and it is present in hexagonal head. Joint of head and tails is neck, which is covered by collar of protein. Tail ends in end plate that develops 3 pairs of tail fibers of protein. Bacteriophages that attack E.coli are called coliphage or T-phages. They were numbered as T1, T2, T3, T4, T5, T6, T7 etc by Delburck, T2, T4, T6 etc are T-even phages T1, T3, T5, etc or T-odd phages.
  2. A bacteriophage comes into contact with the bacterial (host) cell through tail fibres. A passage is created in the host cell once the mucocomplex cell wall of bacteria is broken by lysozyme of bacteriophage. Once the passage is created, ds-linear DNA of bacteriophage is dropped inside the host cell. Empty protein coat i.e. Ghost protein remains out the host cell and disappears later on. Infective part or genetic material in ÆX174 phages is ss circular DNA and it is RNA in MS-2 & R17 phages.
  3. Phage DNA dropped inside host cell may be virulent or temperate. Bacterial cell is destroyed if phage DNA is virulent, bacterial cell is not destroyed is phage DNA is temperate.
  4. Destruction of bacterial cell by virulent phage DNA is called lysis. The sequence of events leading to lysis of bacterial cell are:
    • Virulent phage DNA dropped inside bacterial cell.
    • Multiplication of phage DNA inside host cell i.e. Formation of prophage. Formation of complete phages. (End of latent period or period of eclipse of phages).
    • Destruction or lysis of bacterial cell (Total time: 15-20 minutes).*
  5. A bacterial cell is not destroyed if phage DNA is temperate. Temperate phage DNA is attached with host DNA; this is called lysogeny. A lysogenic bacterial cell behaves normally till temperate phage DNA is attached. Lysogeny in bacteria was first reported by Lwoff. Lwoff also coined the term l-phage for those phages in which tail terminates into single tail fibre.
    • Lysogeny may be of 3 types. They are l-phage lysogeny; P1-phage lysogeny and mu-phage lysogeny. In l-phage lysogeny, temperate phage DNA is attached with bacterial DNA at specific place i.e. at 'gal' & 'bio' genes of bacterial DNA. In P1-phage lysogeny, temperate phage DNA is attached with any place other than gal's genes. In mu-phage lysogeny, temperate phage DNA is never attached with bacterial DNA, remain in bacterial cytoplasm as plasmid.
    • A lysogenic bacterial cell shows different behaviour when exposed to different dosages of UV rays:




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Some Important Modern Viral Diseases

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    1. Cancer or Carcinoma:

    Despite the fact that virus causing cancer is yet to be identified, still cancer is considered like a viral disease because of typical viral symptoms like Hyperplasia & hypertrophy, are reported in cancer. Certain genes called proto-oncogenes (c-onc) are present in human cells, which are involved in normal cell function. Mutation of proto-oncogenes may give rise to oncogenes, which stimulate cell division leading to an uncontrolled growth of the cells causing cancer. All retoveiruses and some DNA containing viruses (such as poxvirus, adenovirus, Herpes virus, hepatitis-B virus etc.) possess oncogene (v.onc) in their genome. These viruses are potential cancer producing pathogens. Study of cancer is called Oncology. Temin and Baltimore's studies on Rous sarcoma virus [RSV] have provided new dimensions in the knowledge of cancer. RSV is RNA containing virus and RNA of RSV forms DNA inside host cell through reverse transcription or 'Teminism'. Newly formed DNA develops malignant tumours in host. Harmful tumor is called malignant tumours whereas tumours, which are not harmful, are termed as benign tumours. Are lethal in advanced stage.


    2. Acquired Immunodeficiency Syndrome (AIDS):

    AIDS is a viral disease in which our acquired immunity defense system is gradually shattered, and the patient dies of multiple infectious diseases. The first indication of AIDS disease came to light in USA in 1981 amongst a group of young homosexuals who were addicts of herion and other narcotics. Luc Montagnier (1983) and Robert Gallo (1984) discovered that a new type of retrovirus is the causative pathogen of AIDS. In 1986, The International Committee of virus Nomenclature (ICVN) named the AIDS virus as Human Immunodeficiency Virus (HIV).

    Although AIDS is hardly a two and half decades old disease, it has spread virtually all over the world, becoming pandemic. According to the estimates of world Health Organization (WHO), about 52 million people in the world harbour HIV and thousands of new cases are detected every day. In India HIV infection was first detected in 1986 in some sex workers of Tamil Nadu. Since then, about 4 million cases have been detected and infection is fast spreading.

    Structure of HIV:

    HIV is a spherical, enveloped virus of about 90-120 nm diameter. Its genome consists of a single stranded RNA filament segmented into two identical filaments and associated with a 'reverse transcriptase enzyme'. Due to the presence of two identical filaments of RNA, HIV is considered to be 'diploid'. The envelope is comprised of a lipid bilayer derived from host cell membrane, and projecting, knob like glycoprotein spikes with pedicels formed of virus coded glycol-proteins (gp).

    Pathogenesis and Symptoms:

    The sentinels of our defense system are a type of white blood cells called lymphocytes. These cells are of different types to play different roles in acquired immunity. One type of lymphocytes called T4(TH) lymphocytes, play the crucial role in activation of other components of the immune system and production of antibodies. HIV attacks T4 lymphocytes and destroy them. As a result the T4 lymphocyte count in blood gradually diminishes (<>4 lymphocytes through several years ultimately leads to a full blown AIDS disease, during which a patient suffers from persistent fever and diarrhea, loss of appetite and weight, weakness and fatique, body pain, dry cough, white lesions in mouth and alimentary canal and warts upon anus and genitals. Eventually, the patient loses immunity and dies of multiple infectious diseases.

    Transmission:

    HIV is present in blood and other body fluids of infected persons. Hence it is transmitted from one to another person through activities involving exchange or transfer of body fluids. Thus, HIV is primarily transmitted through sexual activities. Unprotected sex, sharing of syringes and needles by intravenous drug addicts, use of unsterilized syringes by doctors and health workers etc. are responsible for transmission of HIV. Transfusion of infected blood and blood products, transplantations from infected to healthy one through breast milk feeding after birth are the other potential mode of transmission of HIV.

    Diagnosis:

    Some genes of HIV genome code for synthesis of some antigens which are released into the blood by infected T4 lymphocytes. The immune system of body produces antibodies against these antigens, which can be detected by serological test called Elisa (Enzyme Linked Immunosorbent Assay), western blotting and PCR polymerase reaction test are the confirmatory test.

    Your browser may not support display of this image. Symbol used to describe AIDS disease is ' ' (red ribbon). Noted Hollywood star Rock Hudson & Lawn Tennis Player Arthur Ashe of US were notable AIDS-causalities.

    NARI (National AIDS Research Institute Puna).

    NACO (National AIDS Control Organisation).

    ARV (Anti Retro Viral Drug).

    Prevention and Treatment:

    General precautions such as safer sex and extensive use of condoms, strict screening of blood and blood products used for transfusions and tissue and organ transplantations, and extensive health education can prevent AIDS. December, 1 is observed as World's AIDS Day to arouse general awareness amongst people about HIV infection.

    At present, there is no effective drug to save the immune system of AIDS patient from collapse. However, there are some drugs which are known to delay the progress of AIDS. These include Zidovudine (Azidothymidine-AZT), XQ-9302, Amphotericine-B and its methyl ester etc.

    3. Pox:

    Following types of pox diseases are reported in man:

        Small Pox : Caused by DNA containing Pox viridae, Varoila.

        Chicken Pox : Caused by DNA containing Herpes Virus, Vacicella.

        German Pox : Caused by RNA containing Para influenza virus, Rubella.

          Measles or Khasra : Caused by RNA containing Para influenza virus or Paramyxoviridae with minus strand RNA. AS already mentioned, vaccines of small pox were prepared by Jenner. Earlier small pox was very lethal disease in epidemic form in India. Officially, it has been eradicated from India with the help of WHO