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Microbiology for MBBS- Phase II- ims<br />Lab Practical-1<br />INTRODUCTION<br />A. Using Performance Objectives <br />This manual contains performance objectives for each of the 22 lab exercises covered in this Medical Microbiology course. The objectives tell exactly what you are expected to perform after the completion of each lab exercise. <br />When verbs such as quot;
define,quot;
 quot;
state,quot;
 quot;
discuss,quot;
 quot;
describe,quot;
 or quot;
differentiatequot;
 are used in the objective, you will be expected to quot;
performquot;
 that objective by way of short answer, multiple choice, or matching questions on a pre-announced quiz. <br />When verbs such as quot;
demonstratequot;
 or quot;
performquot;
 are used, you will be expected to demonstrate a particular technique or procedure to the instructor during the course of the laboratory exercise.<br /> When verbs such as quot;
recognizequot;
 or quot;
interpretquot;
 are used, you will be expected to give a written interpretation of the results of an experiment when given these results in either a written form or a practical form. <br />As a general rule, when the objective falls under the discussion sections of a lab exercise, it will be tested by means of short answer, multiple choice, or matching questions; when an objective falls under the procedure section of a lab exercise, it represents a procedure or technique that must be mastered during the course of the lab period; and when an objective is found under the results section of an exercise, it will most likely be tested for by a practical question. <br />B. Laboratory Rules <br />For the safety and convenience of everyone working in the laboratory, it is important that the following laboratory rules are observed at all times: <br />Place only those materials needed for the day's laboratory exercise on the bench tops. Purses, coats, extra books, etc., should be placed in the lab bench storage areas or under the lab benches in order to avoid damage or contamination. <br />Since some of the microorganisms used in this class are pathogenic or potentially pathogenic (opportunistic), it is essential to always follow proper aseptic technique in handling and transferring all organisms. Aseptic technique will be learned in Laboratory 2. <br />No smoking, eating, drinking, or any other hand to mouth activity while in the lab. If you need a short break, wash or sanitize your hands and leave the room. <br />If you should spill a culture, observe the following procedures: <br />Immediately place the culture tube in the plastic baskets found in the hood in the back of the room so no one else touches the contaminated tube. <br />Have your partner spray isopropyl alcohol liberally over the spill. Be sure your Bunsen burner is turned off before you spray any alcohol!  After a few minutes, use paper towels to dry the area.<br />Both you and your partner wash your hands with disinfectant soap and sanitize your hands. <br />Notify your instructor of the spill.<br />Report any cuts, burns, or other injuries to your instructor. <br />Using a wax marker, properly label all inoculated culture tubes or Petri plates with the name or the initials of the microorganism you are growing, your initials or a group symbol, and any other pertinent information. It is important to know what microorganisms are growing in each tube or on each plate.<br />Place all inoculated material only on your assigned incubator shelf, the shelf corresponding to your lab section. Culture tubes should be stored upright in plastic beakers, while Petri plates should be stacked and incubated upsidedown (lid on the bottom.<br />After completing an experiment, dispose of all material properly: <br />Place all culture tubes upright in the plastic baskets found in the disposal hood. Lay them in the basket carefully so they do not tip over and spill.<br />Place Petri plates in the plastic bag-lined buckets found in the disposal hood. <br />Put all used pipettes, swabs and microscope slides in the biohazard disposal containers located in the front of the room and under the hood.<br />Handle all glassware carefully. Notify your instructor of any broken glassware (culture tubes, flasks, beakers, etc.) or microscope slides. <br />DO NOT PICK UP BROKEN GLASSWARE WITH YOUR HANDS!  Use the dust pan and brush. All broken glassware must be disposed of in the sharps/biowaste container in specific room.<br />Use caution around the Bunsen burners. In a crowded lab it is easy to lean over a burner and ignite your hair or clothing. <br />Always clean the oil from of the oil immersion lens of the microscope with a piece of lens paper at the completion of each microscopy lab. <br />Return all equipment, reagents, and other supplies to their proper places at the end of each lab period. <br />Disinfect the bench top with isopropyl alcohol before and after each lab period. Be sure your Bunsen burner is turned off before you spray any alcohol!<br />Always wash and/or sanitize your hands with disinfectant soap before leaving the laboratory. <br />Anyone working with hazardous chemicals should wear safety glasses or goggles.<br />You must wear shoes that cover the tops of your feet to prevent injury from broken glass, spilled chemicals, and dropped objects. Sandals are not permitted in the lab!<br />Do not run in the laboratory. Avoid horseplay.<br />To avoid contamination and damage, do not use cell phones or other personal media devices in the laboratory.<br />Please read the laboratory exercises and follow the laboratory directions carefully.<br />Do not place regular trash such as Kim wipes and paper towels in the biohazard containers.<br />If body fluids are used in a laboratory exercise, each student will work only with his or her own sample. Remember, used swabs go directly into the biowaste container when you are finished with them.<br />IN CASE OF EMERGENCY, CONTACT CAMPUS SECURITY AT (……) and describe the situation and your location.<br />Students who engage in any actions that may damage college property, create an unsafe condition, injure another person, or result in a disruption that interferes with learning may have any, or a combination of the following sanctions imposed as determined by the instructor: <br />A verbal or written warning; <br />Being directed to leave the class for the remainder of the period; <br />A referral to either the Campus Ombudsman or the Department Chairperson; <br />Suspension from the class or the college. <br />Please see Code of Conduct in the most recent Student Handbook.<br />Clinical Microbiology DepartmentSafety Procedures Agreement<br />The instructor has reviewed the Safety Procedures with me and has provided the opportunity to ask questions during the review. I read and understand the safety rules and policies of MSU-ims; I agree to follow the Safety Policies.<br />I understand that failure to comply with the safety and laboratory guidelines may result in a reduction of my final grade and/or I may be asked to leave the class.<br /> <br />_______________________________                          ____________________________Printed Name                                                                   Class and Section<br />_______________________________                          ____________________________Signature                                                                           Date <br />C. General Directions <br />Always familiarize yourself in advance with the exercises to be performed. <br />Disinfect the bench tops with isopropyl alcohol before and after each lab.  <br />The first part of each lab period will be used to complete and record the results of prior experiments. When you come into the lab, always pull out and organize any culture tubes or Petri plates you have in the incubator from previous labs. We will always go over these results as a class. You may wish to purchase a set of colored pencils to aid you in recording your results in the lab manual. <br />The latter part of each lab period will be used to begin new experiments. Preliminary instructions, demonstrations, and any changes in procedure will be given by your instructor prior to starting each new lab exercise. <br />After completing an experiment, dispose of all laboratory media and contaminated materials in the designated areas as described above. <br />Sanitize your hands or wash them with disinfectant soap before leaving the lab. <br />D. Binomial Nomenclature <br />Microorganisms are given specific scientific names based on the binomial (two names) system of nomenclature. The first name is referred to as the genus and the second name is termed the species. The names usually come from Latin or Greek and describe some characteristic of the organism. <br />To correctly write the scientific name of a microorganism, the first letter of the genus should be capitalized while the species name should be in lower case letters. Both the genus and species names are italicized or underlined. Several examples are given below. <br />Bacillus subtilus <br />Bacillus: L. dim. noun Bacillum, a small rodsubtilus: L. adj. subtilus, slender <br />Escherichia coli <br />Escherichia: after discoverer, Prof. Escherichcoli: L. gen. noun coli, of the colon <br />Staphylococcus aureus <br />Staphylococcus: Gr. noun Staphyle, a bunch of grapes; Gr. noun coccus, berry aureus: L. adj. aureus, golden <br />E. Metric Length and Fluid Volume <br />The study of microorganisms necessitates an understanding of the metric system of length. The basic unit of length is the meter (m), which is approximately 39.37 inches. The basic unit for fluid volume is the liter (l), which is approximately 1.06 quarts. The prefix placed in front of the basic unit indicates a certain fraction or multiple of that unit. The most common prefixes we will be using are: <br />Centi (c)=10-2 or 1/100 centimeter (cm)=10-2 m or 1/100 m, milli (m)=10-3 or 1/1000, millimeter (mm)=10-3m or 1/1000 m, milliliter (ml)=10-3 L or 1/1000 L,  micro (µ)=10-6 or 1/1,000,000, micrometer (µm)=10-6 m or 1/1,000,000 m, microliter (µL)=10-6 L or 1/1,000,000 L, nano (n)=10-9 or 1/1,000,000,000, nanometer (nm)=10-9 m or 1/1,000,000,000 m <br />In microbiology, we deal with extremely small units of metric length (micrometer, nanometer). The main unit of length is the micrometer (µm) which is 10-6 (1/1,000,000) of a meter or approximately 1/25,400 of an inch. <br />The average size of a rod-shaped (cylindrical) bacterium (Fig. 1) is 0.5-1.0 µm wide by 1.0-4.0 µm long. An average coccus-shaped (spherical) bacterium (see Fig. 2) is about 0.5-1.0 µm in diameter. A volume of one cubic inch is sufficient to contain approximately nine trillion average-sized bacteria. It would take over 18,000,000 average-sized cocci lined up edge-to-edge to span the diameter of a dime! <br />Fig. 1: A Single Rod (Bacillus)Fig 2: Gram stain of Staphylococcus aureusIn several labs we will be using pipettes to measure fluid volume in ml. <br />F. Using the Microscope (Olympus Model CH-2 Microscope) <br />Moving and transporting the microscope <br />Grasp the arm of the microscope with one hand and support the base of the microscope with the other. Handle the microscope gently, it costs is expensive. <br />Before you plug in the microscope, turn the voltage control dial on the right side of the base of the microscope (Fig. 3) to 1. Now plug in the microscope and use the on/off switch in the front of the microscope on the base to turn it on (Fig. 4). Make sure the entire cord is on the bench top and not hanging down where it could be caught by a leg. Adjust the voltage control dial to 10.<br />Fig. 3: Olympus CH-2 Microscope<br />3. Adjusting the eyepieces (Fig. 4) <br />These microscopes are binocular, that is, they have 2 ocular lenses (eyepieces). To adjust them, first find the proper distance between your eyes and the eyepieces by closing one eye and slowly moving your head toward that eyepiece until you see the complete field of view - about 1 inch away. Keep your head steady and both eyes in the same plane. Now open the other eye and gradually increase the distance between the eyepieces until it matches the distance between your eyes. At the correct distance you will see one circular field of view with both eyes.<br /> <br />Fig. 4: Olympus CH-2 Microscope<br />4. Positioning the slide <br />Place the slide specimen-side-up on the stage so that the specimen lies over the opening for the light in the middle of the stage. Secure the slide between - not under- the slide holder arms of the mechanical stage (Fig. 5). The slide can now be moved from place to place using the 2 control knobs located under the stage on the right of the microscope (Fig. 3). <br />Fig. 5: Olympus CH-2 Microscope Slide Holder. The slide goes between the two arms of the slide holder of the mechanical stage.<br />5. Adjusting the illumination <br />Adjust the voltage by turning the voltage control dial located in the rear right-hand side of the microscope base (Fig. 3). For oil immersion microscopy (1000X) set the light on 9 or 10. At lower magnifications less light will be needed. <br />Adjust the amount of light coming through the condenser using the iris diaphragm lever located under the stage in the front of the microscope (Fig. 3). Light adjustment using the iris diaphragm lever is critical to obtaining proper contrast. For oil immersion microscopy (1000X), the iris diaphragm lever should be set almost all the way open (to your left for maximum light). For low powers such as 100X the iris diaphragm lever should be set mostly closed (to your right for minimum light). <br />The condenser height control (the single knob under the stage on the left-hand side of the microscope (see Fig. 4) should be set so the condenser is all the way up. <br />6. Obtaining different magnifications <br />The final magnification is a product of the 2 lenses being used. The eyepiece or ocular lens magnifies 10X. The objective lenses (see Fig. 4) are mounted on a turret near the stage. The small yellow-striped lens magnifies 10X; the blue-striped lens magnifies 40X, and the white-striped oil immersion lens magnifies 100X. Final magnifications are as follows: <br />ocular lensXobjective lens=total magnification10XX10X (yellow)=100X10X X40X (blue)=400X10XX100X (white)=1000X<br />7. Focusing from lower power to higher power <br />Rotate the yellow-striped 10X objective until it locks into place (total magnification of 100X). <br />Turn the coarse focus control (larger knob; Fig. 3) all the way away from you until it stops. <br />Look through the eyepieces and turn the coarse focus control (larger knob) towards you slowly until the specimen comes into focus. <br />Get the specimen into sharp focus using the fine focus control (smaller knob; Fig. 3) and adjust the light for optimum contrast using the iris diaphragm lever. <br />If higher magnification is desired, simply rotate the blue-striped 40X objective into place (total magnification of 400X) and the specimen should still be in focus. (Minor adjustments in fine focus and light contrast may be needed.) <br />For maximum magnification (1000X or oil immersion), rotate the blue-striped 40X objective slightly out of position and place a drop of immersion oil on the slide. Now rotate the white-striped 100X oil immersion objective into place. Again, the specimen should remain in focus, although minor adjustments in fine focus and light contrast may be needed. <br />Directions for focusing directly with oil immersion (1000X) without first focusing using lower powers will be given in Laboratory 1. <br />8. Cleaning the microscope <br />Clean the exterior lenses of the eyepiece and objective before and after each lab using lens paper only. (Paper towel or kim-wipes may scratch the lens). Remove any immersion oil from the oil immersion lens before putting the microscope away. <br />9. Reason for using immersion oil <br />Normally, when light waves travel from one medium into another, they bend (Fig. 6). Therefore, as the light travels from the glass slide to the air, the light waves bend and are scattered similar to the quot;
bent pencilquot;
 effect when a pencil is placed in a glass of water. The microscope magnifies this distortion effect. Also, if high magnification is to be used, more light is needed. <br />Fig. 6: Image Distortion as a Result of Light Moving from Air into WaterNote how the pencil under the water looks quot;
off-centerquot;
 from the pencil above the water (see arrow). <br />Fig. 7: The Refractive Index of Immersion Oil Immersion oil used for microscopy has the same refractive index as glass, meaning it behaves optically as if it was glass. This is a bottle of immersion oil with the dropper filled with air. The air has a refractive index of 1.00 while the oil has a refractive index of 1.52. Immersion oil has the same refractive index as glass (see Fig. 7 and Fig. 8) and, therefore, provides an optically homogeneous path between the slide and the lens of the objective. Light waves thus travel from the glass slide, into glass-like oil, into the glass lens without being scattered or distorting the image (Fig. 9). In other words, the immersion oil quot;
trapsquot;
 the light and prevents the distortion effect that is seen as a result of the bending of the light waves. <br />Fig. 8: The Refractive Index of Immersion Oil Immersion oil used for microscopy has the same refractive index as glass, meaning it behaves optically as if it was glass. This is a bottle of immersion oil with the dropper filled with oil. Both the glass and the oil have a refractive index of 1.52 and the dropper becomes almost invisible. <br />Fig. 9: Using Immersion Oil to Create an Optically Homogeneous Light Path<br />The immersion oil has the same refractive index as the glass lens and the glass slide. This prevents distortion because the light waves follow a homogeneous path. <br />PERFORMANCE OBJECTIVES FOR THE INTRODUCTION<br />After completing this introduction, the student will be able to perform the following objectives: <br />A. USING PERFORMANCE OBJECTIVES <br />Answer all performance objectives as soon as possible after completing each laboratory exercise. <br />B. LABORATORY RULES <br />Follow all laboratory rules stated in the Introduction. <br />C. GENERAL DIRECTIONS  <br />Follow all general directions stated in the Introduction. <br />D. BINOMIAL NOMENCLATURE <br />Define genus and species and state how to correctly write the scientific name of a microorganism. <br />Correctly write the scientific names of microorganisms. <br />E. METRIC LENGTH <br />Define and give the commonly-used abbreviations for the following units of metric length and fluid volume: centimeter, millimeter, micrometer, nanometer, milliliter, and microliter. <br />State the length and width of an average rod-shaped bacterium and the diameter of an average coccus-shaped bacterium in micrometers. <br />F. USING THE MICROSCOPE <br />Correctly clean the eyepiece and the objective lenses before and after each lab. <br />Define ocular lens and objective lens. <br />Place a slide in the slide holder of a mechanical stage correctly. <br />Focus on a specimen using 10X, 40X, and 100X objectives. <br />Adjust the light using the iris diaphragm lever for optimum contrast after focusing. <br />State the reason for using immersion oil at 1000X. <br />Calculate the total magnification of a lens system when using a 10X, 40X, or 100 X objectives in conjunction with a 10X eyepiece. <br />
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical
Microbiology   lab practical

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Microbiology lab practical

  • 1. Microbiology for MBBS- Phase II- ims<br />Lab Practical-1<br />INTRODUCTION<br />A. Using Performance Objectives <br />This manual contains performance objectives for each of the 22 lab exercises covered in this Medical Microbiology course. The objectives tell exactly what you are expected to perform after the completion of each lab exercise. <br />When verbs such as quot; define,quot; quot; state,quot; quot; discuss,quot; quot; describe,quot; or quot; differentiatequot; are used in the objective, you will be expected to quot; performquot; that objective by way of short answer, multiple choice, or matching questions on a pre-announced quiz. <br />When verbs such as quot; demonstratequot; or quot; performquot; are used, you will be expected to demonstrate a particular technique or procedure to the instructor during the course of the laboratory exercise.<br /> When verbs such as quot; recognizequot; or quot; interpretquot; are used, you will be expected to give a written interpretation of the results of an experiment when given these results in either a written form or a practical form. <br />As a general rule, when the objective falls under the discussion sections of a lab exercise, it will be tested by means of short answer, multiple choice, or matching questions; when an objective falls under the procedure section of a lab exercise, it represents a procedure or technique that must be mastered during the course of the lab period; and when an objective is found under the results section of an exercise, it will most likely be tested for by a practical question. <br />B. Laboratory Rules <br />For the safety and convenience of everyone working in the laboratory, it is important that the following laboratory rules are observed at all times: <br />Place only those materials needed for the day's laboratory exercise on the bench tops. Purses, coats, extra books, etc., should be placed in the lab bench storage areas or under the lab benches in order to avoid damage or contamination. <br />Since some of the microorganisms used in this class are pathogenic or potentially pathogenic (opportunistic), it is essential to always follow proper aseptic technique in handling and transferring all organisms. Aseptic technique will be learned in Laboratory 2. <br />No smoking, eating, drinking, or any other hand to mouth activity while in the lab. If you need a short break, wash or sanitize your hands and leave the room. <br />If you should spill a culture, observe the following procedures: <br />Immediately place the culture tube in the plastic baskets found in the hood in the back of the room so no one else touches the contaminated tube. <br />Have your partner spray isopropyl alcohol liberally over the spill. Be sure your Bunsen burner is turned off before you spray any alcohol!  After a few minutes, use paper towels to dry the area.<br />Both you and your partner wash your hands with disinfectant soap and sanitize your hands. <br />Notify your instructor of the spill.<br />Report any cuts, burns, or other injuries to your instructor. <br />Using a wax marker, properly label all inoculated culture tubes or Petri plates with the name or the initials of the microorganism you are growing, your initials or a group symbol, and any other pertinent information. It is important to know what microorganisms are growing in each tube or on each plate.<br />Place all inoculated material only on your assigned incubator shelf, the shelf corresponding to your lab section. Culture tubes should be stored upright in plastic beakers, while Petri plates should be stacked and incubated upsidedown (lid on the bottom.<br />After completing an experiment, dispose of all material properly: <br />Place all culture tubes upright in the plastic baskets found in the disposal hood. Lay them in the basket carefully so they do not tip over and spill.<br />Place Petri plates in the plastic bag-lined buckets found in the disposal hood. <br />Put all used pipettes, swabs and microscope slides in the biohazard disposal containers located in the front of the room and under the hood.<br />Handle all glassware carefully. Notify your instructor of any broken glassware (culture tubes, flasks, beakers, etc.) or microscope slides. <br />DO NOT PICK UP BROKEN GLASSWARE WITH YOUR HANDS!  Use the dust pan and brush. All broken glassware must be disposed of in the sharps/biowaste container in specific room.<br />Use caution around the Bunsen burners. In a crowded lab it is easy to lean over a burner and ignite your hair or clothing. <br />Always clean the oil from of the oil immersion lens of the microscope with a piece of lens paper at the completion of each microscopy lab. <br />Return all equipment, reagents, and other supplies to their proper places at the end of each lab period. <br />Disinfect the bench top with isopropyl alcohol before and after each lab period. Be sure your Bunsen burner is turned off before you spray any alcohol!<br />Always wash and/or sanitize your hands with disinfectant soap before leaving the laboratory. <br />Anyone working with hazardous chemicals should wear safety glasses or goggles.<br />You must wear shoes that cover the tops of your feet to prevent injury from broken glass, spilled chemicals, and dropped objects. Sandals are not permitted in the lab!<br />Do not run in the laboratory. Avoid horseplay.<br />To avoid contamination and damage, do not use cell phones or other personal media devices in the laboratory.<br />Please read the laboratory exercises and follow the laboratory directions carefully.<br />Do not place regular trash such as Kim wipes and paper towels in the biohazard containers.<br />If body fluids are used in a laboratory exercise, each student will work only with his or her own sample. Remember, used swabs go directly into the biowaste container when you are finished with them.<br />IN CASE OF EMERGENCY, CONTACT CAMPUS SECURITY AT (……) and describe the situation and your location.<br />Students who engage in any actions that may damage college property, create an unsafe condition, injure another person, or result in a disruption that interferes with learning may have any, or a combination of the following sanctions imposed as determined by the instructor: <br />A verbal or written warning; <br />Being directed to leave the class for the remainder of the period; <br />A referral to either the Campus Ombudsman or the Department Chairperson; <br />Suspension from the class or the college. <br />Please see Code of Conduct in the most recent Student Handbook.<br />Clinical Microbiology DepartmentSafety Procedures Agreement<br />The instructor has reviewed the Safety Procedures with me and has provided the opportunity to ask questions during the review. I read and understand the safety rules and policies of MSU-ims; I agree to follow the Safety Policies.<br />I understand that failure to comply with the safety and laboratory guidelines may result in a reduction of my final grade and/or I may be asked to leave the class.<br /> <br />_______________________________                          ____________________________Printed Name                                                                   Class and Section<br />_______________________________                          ____________________________Signature                                                                           Date <br />C. General Directions <br />Always familiarize yourself in advance with the exercises to be performed. <br />Disinfect the bench tops with isopropyl alcohol before and after each lab. <br />The first part of each lab period will be used to complete and record the results of prior experiments. When you come into the lab, always pull out and organize any culture tubes or Petri plates you have in the incubator from previous labs. We will always go over these results as a class. You may wish to purchase a set of colored pencils to aid you in recording your results in the lab manual. <br />The latter part of each lab period will be used to begin new experiments. Preliminary instructions, demonstrations, and any changes in procedure will be given by your instructor prior to starting each new lab exercise. <br />After completing an experiment, dispose of all laboratory media and contaminated materials in the designated areas as described above. <br />Sanitize your hands or wash them with disinfectant soap before leaving the lab. <br />D. Binomial Nomenclature <br />Microorganisms are given specific scientific names based on the binomial (two names) system of nomenclature. The first name is referred to as the genus and the second name is termed the species. The names usually come from Latin or Greek and describe some characteristic of the organism. <br />To correctly write the scientific name of a microorganism, the first letter of the genus should be capitalized while the species name should be in lower case letters. Both the genus and species names are italicized or underlined. Several examples are given below. <br />Bacillus subtilus <br />Bacillus: L. dim. noun Bacillum, a small rodsubtilus: L. adj. subtilus, slender <br />Escherichia coli <br />Escherichia: after discoverer, Prof. Escherichcoli: L. gen. noun coli, of the colon <br />Staphylococcus aureus <br />Staphylococcus: Gr. noun Staphyle, a bunch of grapes; Gr. noun coccus, berry aureus: L. adj. aureus, golden <br />E. Metric Length and Fluid Volume <br />The study of microorganisms necessitates an understanding of the metric system of length. The basic unit of length is the meter (m), which is approximately 39.37 inches. The basic unit for fluid volume is the liter (l), which is approximately 1.06 quarts. The prefix placed in front of the basic unit indicates a certain fraction or multiple of that unit. The most common prefixes we will be using are: <br />Centi (c)=10-2 or 1/100 centimeter (cm)=10-2 m or 1/100 m, milli (m)=10-3 or 1/1000, millimeter (mm)=10-3m or 1/1000 m, milliliter (ml)=10-3 L or 1/1000 L, micro (µ)=10-6 or 1/1,000,000, micrometer (µm)=10-6 m or 1/1,000,000 m, microliter (µL)=10-6 L or 1/1,000,000 L, nano (n)=10-9 or 1/1,000,000,000, nanometer (nm)=10-9 m or 1/1,000,000,000 m <br />In microbiology, we deal with extremely small units of metric length (micrometer, nanometer). The main unit of length is the micrometer (µm) which is 10-6 (1/1,000,000) of a meter or approximately 1/25,400 of an inch. <br />The average size of a rod-shaped (cylindrical) bacterium (Fig. 1) is 0.5-1.0 µm wide by 1.0-4.0 µm long. An average coccus-shaped (spherical) bacterium (see Fig. 2) is about 0.5-1.0 µm in diameter. A volume of one cubic inch is sufficient to contain approximately nine trillion average-sized bacteria. It would take over 18,000,000 average-sized cocci lined up edge-to-edge to span the diameter of a dime! <br />Fig. 1: A Single Rod (Bacillus)Fig 2: Gram stain of Staphylococcus aureusIn several labs we will be using pipettes to measure fluid volume in ml. <br />F. Using the Microscope (Olympus Model CH-2 Microscope) <br />Moving and transporting the microscope <br />Grasp the arm of the microscope with one hand and support the base of the microscope with the other. Handle the microscope gently, it costs is expensive. <br />Before you plug in the microscope, turn the voltage control dial on the right side of the base of the microscope (Fig. 3) to 1. Now plug in the microscope and use the on/off switch in the front of the microscope on the base to turn it on (Fig. 4). Make sure the entire cord is on the bench top and not hanging down where it could be caught by a leg. Adjust the voltage control dial to 10.<br />Fig. 3: Olympus CH-2 Microscope<br />3. Adjusting the eyepieces (Fig. 4) <br />These microscopes are binocular, that is, they have 2 ocular lenses (eyepieces). To adjust them, first find the proper distance between your eyes and the eyepieces by closing one eye and slowly moving your head toward that eyepiece until you see the complete field of view - about 1 inch away. Keep your head steady and both eyes in the same plane. Now open the other eye and gradually increase the distance between the eyepieces until it matches the distance between your eyes. At the correct distance you will see one circular field of view with both eyes.<br /> <br />Fig. 4: Olympus CH-2 Microscope<br />4. Positioning the slide <br />Place the slide specimen-side-up on the stage so that the specimen lies over the opening for the light in the middle of the stage. Secure the slide between - not under- the slide holder arms of the mechanical stage (Fig. 5). The slide can now be moved from place to place using the 2 control knobs located under the stage on the right of the microscope (Fig. 3). <br />Fig. 5: Olympus CH-2 Microscope Slide Holder. The slide goes between the two arms of the slide holder of the mechanical stage.<br />5. Adjusting the illumination <br />Adjust the voltage by turning the voltage control dial located in the rear right-hand side of the microscope base (Fig. 3). For oil immersion microscopy (1000X) set the light on 9 or 10. At lower magnifications less light will be needed. <br />Adjust the amount of light coming through the condenser using the iris diaphragm lever located under the stage in the front of the microscope (Fig. 3). Light adjustment using the iris diaphragm lever is critical to obtaining proper contrast. For oil immersion microscopy (1000X), the iris diaphragm lever should be set almost all the way open (to your left for maximum light). For low powers such as 100X the iris diaphragm lever should be set mostly closed (to your right for minimum light). <br />The condenser height control (the single knob under the stage on the left-hand side of the microscope (see Fig. 4) should be set so the condenser is all the way up. <br />6. Obtaining different magnifications <br />The final magnification is a product of the 2 lenses being used. The eyepiece or ocular lens magnifies 10X. The objective lenses (see Fig. 4) are mounted on a turret near the stage. The small yellow-striped lens magnifies 10X; the blue-striped lens magnifies 40X, and the white-striped oil immersion lens magnifies 100X. Final magnifications are as follows: <br />ocular lensXobjective lens=total magnification10XX10X (yellow)=100X10X X40X (blue)=400X10XX100X (white)=1000X<br />7. Focusing from lower power to higher power <br />Rotate the yellow-striped 10X objective until it locks into place (total magnification of 100X). <br />Turn the coarse focus control (larger knob; Fig. 3) all the way away from you until it stops. <br />Look through the eyepieces and turn the coarse focus control (larger knob) towards you slowly until the specimen comes into focus. <br />Get the specimen into sharp focus using the fine focus control (smaller knob; Fig. 3) and adjust the light for optimum contrast using the iris diaphragm lever. <br />If higher magnification is desired, simply rotate the blue-striped 40X objective into place (total magnification of 400X) and the specimen should still be in focus. (Minor adjustments in fine focus and light contrast may be needed.) <br />For maximum magnification (1000X or oil immersion), rotate the blue-striped 40X objective slightly out of position and place a drop of immersion oil on the slide. Now rotate the white-striped 100X oil immersion objective into place. Again, the specimen should remain in focus, although minor adjustments in fine focus and light contrast may be needed. <br />Directions for focusing directly with oil immersion (1000X) without first focusing using lower powers will be given in Laboratory 1. <br />8. Cleaning the microscope <br />Clean the exterior lenses of the eyepiece and objective before and after each lab using lens paper only. (Paper towel or kim-wipes may scratch the lens). Remove any immersion oil from the oil immersion lens before putting the microscope away. <br />9. Reason for using immersion oil <br />Normally, when light waves travel from one medium into another, they bend (Fig. 6). Therefore, as the light travels from the glass slide to the air, the light waves bend and are scattered similar to the quot; bent pencilquot; effect when a pencil is placed in a glass of water. The microscope magnifies this distortion effect. Also, if high magnification is to be used, more light is needed. <br />Fig. 6: Image Distortion as a Result of Light Moving from Air into WaterNote how the pencil under the water looks quot; off-centerquot; from the pencil above the water (see arrow). <br />Fig. 7: The Refractive Index of Immersion Oil Immersion oil used for microscopy has the same refractive index as glass, meaning it behaves optically as if it was glass. This is a bottle of immersion oil with the dropper filled with air. The air has a refractive index of 1.00 while the oil has a refractive index of 1.52. Immersion oil has the same refractive index as glass (see Fig. 7 and Fig. 8) and, therefore, provides an optically homogeneous path between the slide and the lens of the objective. Light waves thus travel from the glass slide, into glass-like oil, into the glass lens without being scattered or distorting the image (Fig. 9). In other words, the immersion oil quot; trapsquot; the light and prevents the distortion effect that is seen as a result of the bending of the light waves. <br />Fig. 8: The Refractive Index of Immersion Oil Immersion oil used for microscopy has the same refractive index as glass, meaning it behaves optically as if it was glass. This is a bottle of immersion oil with the dropper filled with oil. Both the glass and the oil have a refractive index of 1.52 and the dropper becomes almost invisible. <br />Fig. 9: Using Immersion Oil to Create an Optically Homogeneous Light Path<br />The immersion oil has the same refractive index as the glass lens and the glass slide. This prevents distortion because the light waves follow a homogeneous path. <br />PERFORMANCE OBJECTIVES FOR THE INTRODUCTION<br />After completing this introduction, the student will be able to perform the following objectives: <br />A. USING PERFORMANCE OBJECTIVES <br />Answer all performance objectives as soon as possible after completing each laboratory exercise. <br />B. LABORATORY RULES <br />Follow all laboratory rules stated in the Introduction. <br />C. GENERAL DIRECTIONS <br />Follow all general directions stated in the Introduction. <br />D. BINOMIAL NOMENCLATURE <br />Define genus and species and state how to correctly write the scientific name of a microorganism. <br />Correctly write the scientific names of microorganisms. <br />E. METRIC LENGTH <br />Define and give the commonly-used abbreviations for the following units of metric length and fluid volume: centimeter, millimeter, micrometer, nanometer, milliliter, and microliter. <br />State the length and width of an average rod-shaped bacterium and the diameter of an average coccus-shaped bacterium in micrometers. <br />F. USING THE MICROSCOPE <br />Correctly clean the eyepiece and the objective lenses before and after each lab. <br />Define ocular lens and objective lens. <br />Place a slide in the slide holder of a mechanical stage correctly. <br />Focus on a specimen using 10X, 40X, and 100X objectives. <br />Adjust the light using the iris diaphragm lever for optimum contrast after focusing. <br />State the reason for using immersion oil at 1000X. <br />Calculate the total magnification of a lens system when using a 10X, 40X, or 100 X objectives in conjunction with a 10X eyepiece. <br />