Chapter 4

Question 1

A unit of measurement is?

Answer 1

Smaller than the object being measured

Question 2

Scientists use what type of measurements?

Answer 2

Metric units

Question 3

The metric system is a?

Answer 3

Decimal system

Question 4

Unit of length in the metric system is?

Answer 4

Meter (m)

Question 5

One tenth of a meter is?

Answer 5

decimeter (dm)

Question 6

One one-hundreth of a meter is a?

Answer 6

Centimeter (cm)

Question 7

One tenth of a centimeter is?

Answer 7

millimeter (mm)

Question 8

In the metric system, we continue to divide by multiples of?

Answer 8

10

Question 9

One-thousandth of a millimeter is?

Answer 9

A micrometer which is small enough to be useful in measuring cells

Question 10

Unit used to measure the smallest cellular organelles and viruses

Answer 10

nanometer (nm) which is one-billionth of a meter

Question 11

Microscopy refers to?

Answer 11

The use of light or electrons to magnify objects

Question 12

Science of microscopy began when

Answer 12

Leeuwenhoek used primitive microscopes to observe & report the existence of microorganisms

Question 13

General principle involved in both light and electron microscopy include

Answer 13

The wavelength of radiation, the magnification of an image, the resolving power of the instrument, and contrast in the specimen

Question 14

Beams of radiation may be referred to as either

Answer 14

Rays or waves

Question 15

rays and waves (various forms of radiation) differ in?

Answer 15

Wavelength, the distance between two corresponding parts of a wave

Question 16

The human eye discriminates among different wave lengths of visible light & sends patterns of?

Answer 16

Nerve impulses to the brain, which interprets the impulses as different colors. For example we see wavelengths of 400nm as violet, & 650 nm as red. White light (composed of many colors (wavelengths), has an average wavelength of 550 nm

Question 17

Electrons are negatively charged particles that orbit the nuclei of atoms. Besides being particulate, moving electrons act as?

Answer 17

Waves, with wavelengths dependent on the voltage of an electron beam. For example, the wavelength of electrons at 1,000,000 V is 0.001 nm. Radiation of smaller wavelengths results in enhanced microscopy

Question 18

Magnification is the?

Answer 18

Apparent increase in size of an object. It is indicated by the number and “X”, which reads “times.” For example, 16,000X is 16,000 times

Question 19

Magnification results when a?

Answer 19

Beam of radiation refracts (bends) as it passes through a lens. Curved glass lens refract light, and magnetic fields refract electron beams

Question 20

A lens refracts light because?

Answer 20

The lens is optically dense compared to the surrounding medium (such as air); that is, light travels more slowly through the lens than through air

Question 21

Because of its curvature, a lens refracts light rays that pass through its periphery more than light rays that pass through its?

Answer 21

Center, so that the lens focuses light rays on a focal point

Question 22

The degree to which an image in enlarged depends on?

Answer 22

The thickness of the lens, its curvature, & the speed of light through its substance

Question 23

The properties that determine the clarity of an image of a microscope, are?

Answer 23

Resolution and contrast

Question 24

Resolution is?

Answer 24

Also called the resolving power, is the ability to distinguish objects that are close together

Question 25

Modern microscopes have ________ resolution than Leeuwenhoek’s; they can distinguish objects as close together as 0.2 micrometers

Answer 25

Fivefold

Question 26

Ability of the lens to gather light

Answer 26

Numerical aperture

Question 27

Contrast refers to

Answer 27

Differences in intensity between two objects or between an object and its background. Important in determining resolution

Question 28

What does phase mean?

Answer 28

All the waves crests and troughs are aligned

Question 29

Bright-field microscopes (most common microscopes)

Answer 29

The background (or field) is illuminated

Question 30

Dark-field microscopes

Answer 30

The specimen is made to appear light against a dark background

Question 31

Phase microscopes use the

Answer 31

Alignment or misalignment of light waves to achieve the desired contrast between a living specimen & its background

Question 32

Fluorescent microscopes use

Answer 32

Invisible ultraviolet light to cause specimens to radiate visible light

Question 33

Microscopes that use lasers to illuminate fluorescent chemicals in a thin plane of a specimen are called

Answer 33

Confocal microscopes

Question 34

Staining increases?

Answer 34

Contrast and resolution

Question 35

What type of microscopy requires that specimens be treated with stains or coatings to enhance contrast?

Answer 35

Electron microscopy

Question 36

Thin film of organisms on a slide is called a?

Answer 36

Smear

Question 37

If the organisms are growing on a solid surface, such as an agar plate, then they are?

Answer 37

Mixed into a small drop of water on the slide

Question 38

If the organisms are growing in a liquid, a small drop

Answer 38

Is spread across the surface of the slide

Question 39

In heat fixation

Answer 39

Developed by Robert Kosh more than 100 years ago, the slide is gently heated by passing the slide, smear up, through the flame of a bunsen burner

Question 40

Chemical fixation involves

Answer 40

Applying a chemical such as methyl alcohol to the smear for one minute

Question 41

Desiccation (drying) and fixation does what to the microorganism?

Answer 41

Kill the microorganism, attaches them firmly to the slide, & generally preserve their shape & size

Question 42

Specimens for scanning electron microscopy are?

Answer 42

Coated not stained

Question 43

Dyes used for microbiological stains for light microscopy are usually?

Answer 43

Salts

Question 44

Salt (usual dye) is composed of?

Answer 44

A positively charged cation and a negatively charged anion. At least one of the two ions in the molecular makeup of dyes is colored; this colored portion of a dye is known as the chromophore

Question 45

Chromophores bind to chemicals via?

Answer 45

Covalent, ionic, or hydrogen bonds. For example methylene blue chloride is composed of a cationic chromophore, methylene blue, and a chloride anion. Because methylene blue is positively charged, it ionically bond to negatively charged molecules in cells, including DNA & many proteins

Question 46

Anionic dyes, for example eosin, bind to?

Answer 46

Positively charged molecules such as amino acids

Question 47

Anionic chromophores are also called?

Answer 47

Acidic dyes because they stain alkaline structures & work best in acidic (low pH) environments.

Question 48

Basic dyes are

Answer 48

Positively charged, cationic chromophores. They combine with & stain acidic structures; further, they work best under basic (higher pH) conditions.

Question 49

In microbiology which dyes are more commonly used more, basic or acid?

Answer 49

Basic dyes because most cells are negatively charged

Question 50

Acidic dyes are used in?

Answer 50

Negative staining

Question 51

Selectively stains membranes because it is lipid soluble and accumulates in phospholipid bilayers

Answer 51

Sudan black

Question 52

Simple stains are?

Answer 52

Composed of a single basic dye, such as crystal violet, safranin, or methylene blue. They are “simple” because they involve no more than soaking the smear in the dye for 30-60 seconds and then rinsing off the slide with water. After carefully blotting the slide you can observe the smear under the microscope

Question 53

Simple stains are used to?

Answer 53

Determine size, shape, and arrangement of cells

Question 54

Differential stains (most common) use?

Answer 54

More than one dye so that different cells, chemicals, or structures can be distinguished when microscopically examined

Question 55

Common differential stains are?

Answer 55

Gram stain, the acid-fast stain, the endospore stain, Gomori methenamine silver stain, and hematoxylin and eosin stain

Question 56

Who developed the Gram stain?

Answer 56

In 1884, the Danish scientist Hans Christian Gram

Question 57

The Gram stain differentiates between?

Answer 57

Two large groups of microorganisms: purple-staining Gram-positive cells and pink-staining Gram-negative cells. These cells differ significantly in the chemical and physical structures of their cell walls

Question 58

Typically, a ______ stain is the first step a medical laboratory technologist performs to identify bacterial pathogens

Answer 58

Gram

Question 59

4 Steps of Gram staining procedure

Answer 59

1) Flood smear with basic crystal violet for 1 min. then rinse w/water. This dye colors all cells
2) Flood smear with iodine solution for 1 min. then rinse w/water. After this step all cells remain purple
3) Rinse smear w/solution of ethanol & acetone (10-30 sec) then rinse w/water. This breaks down thin cell wall of Gram-negative cells allowing stain and mordant to be washed away. These cells are now colorless. Gram-positive cells w/their thick cell walls remain purple
4) Flood smear w/safranin for 1 min. Rinse. This red counterstain provides contrasting color to the primary stain. After this step Gram-negative cells are pink
After final step the slide is blotted dry

Question 60

The primary stain of Gram stain

Answer 60

Crystal violet

Question 61

Iodine is a?

Answer 61

Mordant, a substance that binds to a dye & makes it less soluble

Question 62

Acts as a decolorizing agen

Answer 62

Solution of ethanol and acetone

Question 63

The Gram procedure works best with?

Answer 63

Young cells. Older Gram-positive cells bleach more easily than younger cells & can therefore stain pink, which makes them appear to be Gram-negative cells. Therefore, smears for Gram staining should come from freshly grown bacteria

Question 64

The acid-fast stain is

Answer 64

Another differential stain because it stains cells of the genera Mycobacterium and Nocardia which cause many human diseases, including TB, leprosy, & other lung & skin infections. Cells of these bacteria have large amounts of waxy lipid in their cell walls, so they do not readily stain with the Gram stain

Question 65

Acid-fast stain developed by?

Answer 65

Franz Ziehl and Friedrich Neelsen in 1883

Question 66

Procedure of acid-fast stain

Answer 66

1) Cover smear with piece of tissue paper to retain dye
2) Flood slide w/red primary stain, carbolfuchsin, for several min. while warming over steaming water. This is used to drive the stain through the waxy wall and into the cell
3) Remove paper, cool slide, decolorize smear by rinsing w/solution of hydrochloric acid & alcohol. The bleaching action of acid-alcohol removes color from both non-acid fast cells and the background. Acid-fast cells retain their color because the acid cannot penetrate the waxy wall
4) Counterstain w/ methylene blue, which stains only bleached, non acid-fast cells

Question 67

The Ziehl-Neelsen acid-fast staining procedure results in?

Answer 67

Pink acid-fast cells, which can be differentiated from blue non-acid fast cells, including human cells and tissue

Question 68

The presence of acid-fast bacilli (AFBs) in sputum is indicative of?

Answer 68

Mycobacterial infection

Question 69

Some bacteria-notably those of the genera Bacillus and Clostridium which contain species that cause such disease as anthrax, gangrene, and tetanus- produce?

Answer 69

Endospores

Question 70

Endospores are

Answer 70

Dormant, highly resistant cells form inside the cytoplasm of the bacteria & can survive environmental extremes such as desiccation, heat, & harmful chemicals

Question 71

Endospores cannot be stained by normal staining procedures because?

Answer 71

Their walls are practically impermeable to all chemicals. The Schaeffer-Fulton endospore stain uses heat to drive the primary stain, malachite green, into the endospore. After cooling the slide is decolorized w/water & counterstained with safranin. This staining procedure results in green-stained endospores & red colored vegetative cells

Question 72

Laboratory technicians use two popular stains to stain histological specimens (tissue samples)

Answer 72

Gomori methenamine silver (GMS) stain is commonly used to screen for the presence of fungi & the locations of carbohydrates in tissues. Hematoxylin & eosin (HE) stain, which involves applying the basic dye hematoxylin & the acidic dye eosin, is used to delineate many features of histological specimens, such as the presence of cancer cells

Question 73

Special stains are?

Answer 73

Simple stains designed to reveal special microbial structures

Question 74

There are three types of special stains

Answer 74

Negative stains, flagellar stains, and fluorescent stains

Question 75

Describe the negative (capsule) stain

Answer 75

Most dyes used to stain bacterial cells, such as crystal violet, methylene blue, malachite green, & safranin, are basic dyes. These dyes stain cells by attaching to negatively charged molecules within them

Question 76

What is repulsed by the negative charges on the surface of cells & therefore do not stain them?

Answer 76

Acidic dyes. Such stains are called negative stains because they stain the background & leave cells colorless. Eosin & nigrosin are examples of acidic dyes used for negative staining. A counterstain may be added to color the cells

Question 77

Negative (capsule) stains are used primarily to?

Answer 77

Reveal the presence of negatively charged bacterial capsules. Therefore, they are also called capsule stains. Encapsulated cells appear to have a holo surrounding them

Question 78

Pararosaniline and carbolfuchsin, & mordants, such as tannic acid & potassium alum are applied in a series of steps and are examples of?

Answer 78

Flagellar stains

Question 79

Pararosaniline and carbolfuchsin, & mordants, such as tannic acid & potassium alum are applied in a series of steps and are examples of flagellar stains, these molecules bind to flagella and?

Answer 79

Increase their diameter, & change their color, all of which increase contrast & make them visible

Question 80

Laboratory technicians increase contrast & resolution for transmission electron microscopy by?

Answer 80

Using stains, however these stains are not colored dyes but are chemicals containing atoms of heavy metals such as lead, osmium, tungsten, & uranium, which absorb electrons

Question 81

Electron-dense stains may

Answer 81

Bind to molecules w/in specimens, or they may stain the background. The latter type of negative staining is used to provide contrast for small specimens (viruses & molecules)

Question 82

Stains for electron microscopy can be general, in that they?

Answer 82

Stain most objects to some degree, or they may be highly specific. For example, osmium tetra oxide (OsO4) has an affinity for lipids & is thus used to enhance the contrast of membranes

Question 83

Electron-dense stains can also be linked to?

Answer 83

Antibodies to provide an even greater degree of staining specificity because antibodies bind only to their specific target molecules

Question 84

Reveals size, morphology, & arrangement of cell

Answer 84

Simple stains

Question 85

Uniform purple stain

Answer 85

Crystal violet (simple stain)

Question 86

Uniform blue stain

Answer 86

Methylene blue (simple stain)

Question 87

Differentiates Gram-postivie and Gram-negative bacteria, which is typically the first step in their identification

Answer 87

Gram stain

Question 88

Differential stains. Use two or more dyes to differentiate between cells or structures

Answer 88

1) Gram stain
2) Ziehl-Neelsen acid-fast stain
3) Schaeffer-Fulton endospore stain

Question 89

Distinguishes the genera Mycobacterium and Nocardia from other bacteria

Answer 89

Ziehl-Neelsen acid-fast stain

Question 90

Highlights the presence of endospores produced by species in the genera Bacillus and Clostridium

Answer 90

Schaeffer-Fulton endospore stain

Question 91

Reveals bacterial capsules

Answer 91

Negative stain for capsules

Question 92

Allows determination of number & location of bacterial flagella

Answer 92

Flagellar stain