Cell structure
Cards (183)
- The cell is the basic unit of life
- Cells are not visible to the naked eye and their structure is only apparent when seen under a microscope
- MicroscopesInstruments that produce a magnified image of an object
- MagnificationHow many times bigger the image is when compared to the object
- ResolutionThe minimum distance apart that two objects can be in order for them to appear as separate items
- The resolving power of a light microscope is about 0.2 μm
- The beam of electrons in the electron microscope can distinguish between two objects only 0.1 nm apart
- Cell fractionation1. Cells are broken up2. Different organelles are separated out
- Ultracentrifugation1. Filtered homogenate is spun2. Heaviest organelles sediment3. Supernatant is removed4. Next heaviest organelles are spun again
- Before cell fractionation, the tissue is placed in a cold, buffered solution of the same water potential as the tissue
- Cold buffered solution
- Reduces enzyme activity
- Prevents organelles bursting or shrinking
- Maintains pH
- Units of length
- kilometre
- metre
- millimetre
- micrometre
- nanometre
- Increasing the magnification does not always increase the resolution
- The electron microscope has a high resolving power due to the short wavelength of the electron beam
- Transmission Electron Microscope (TEM)Produces a 2-D image by passing electrons through a thin specimen
- Scanning Electron Microscope (SEM)Produces a 3-D image by scanning the surface of the specimen
- The resolving power of the TEM is 0.1 nm
- The main limitations of the TEM include the need for a vacuum and the requirement for extremely thin specimens
- Artefacts may appear on photomicrographs but are not part of the natural specimen
- The SEM does not require specimens to be extremely thin
- The series of photomicrographs produced is a slow and complicated process
- Scanning Electron Microscope (SEM)A microscope that directs a beam of electrons onto the surface of the specimen from above
- Transmission Electron Microscope (TEM)A microscope that penetrates specimens from below
- Scanning Electron Microscope (SEM)
- Specimens need not be extremely thin
- Produces 3-D images by computer analysis
- Lower resolving power than TEM
- The basic SEM has a lower resolving power than a TEM, around 20 nm, but is still ten times better than a light microscope
- Electrons do not penetrate in SEM
- Calibrating an eyepiece graticule1. Use a stage micrometer2. Line up scales3. Calculate length of divisions4. Record results for future use
- Eyepiece graticuleA glass disc placed in the eyepiece of a microscope with a scale etched on it
- The scale on the eyepiece graticule cannot be used directly to measure the size of objects under a microscope's objective lens
- The nuclear envelope is a double membrane that surrounds the nucleus
- Nucleus
- Contains hereditary material
- Controls cell activities
- Typically spherical and between 10 and 20 μm in diameter
- Nuclear pores allow the passage of large molecules, such as messenger RNA, out of the nucleus
- There are typically around 3000 pores in each nucleus, each 40-100 nm in diameter
- NucleoplasmThe granular, jelly-like material that makes up the bulk of the nucleus
- ChromosomesConsist of protein-bound, linear DNA
- NucleolusA small spherical region within the nucleoplasm that manufactures ribosomal RNA and assembles ribosomes
- Mitochondria
- Usually rod-shaped
- 1-10 μm in length
- Sites of aerobic respiration
- Mitochondria are responsible for the production of the energy-carrier molecule, ATP
- Functions of the nucleus
- Control centre of the cell
- Retain genetic material
- Manufacture ribosomal RNA and ribosomes
- Chloroplasts are the organelles that carry out photosynthesis