4.1
These microscopes can magnify over 1 million times
Electron Microscope
Human cells have this many chromosomes
46
These microtubules used in movement of the cell are shorter and more numerous
Cilia
These structures convert sunlight to chemical energy
Chloroplasts
Everything between the nuclear membrane and the cell membrane.
Cytoplasm
Fungi have these types of cells
Eukaryotic
The M in mRNA stands for this
Messenger
These hollow tubes of protein are part of the cytoskeleton
Microtubules
This pigment causes plants to appear green
Chlorophyll
A structure that organizes the motion of chromosomes
Centriole
This structure contains DNA in a prokaryotic cell.
Nucleoid
This membrane separates the nucleus from the cytoplasm
Nuclear Envelope
The space between the outer and inner membrane in a chloroplast is called this
The intermembrane space
This unique part of a plant cell helps the cell maintain its shape
Cell Wall
A package created by the Golgi Apparatus
Vesicle
These two units of measure explain why cells are small
Surface Area and Volume
Ribosomes are made in this part of the cell
Nucleolus
In cellular respiration, sugar is converted to this
ATP
This part of the plant cell stores food or pigments
Plastids
Large molecules and charged ions are able to get through the cell membrane by using these.
Protein Channels
Phospholipids consist of these (name both parts)
Phosphate Group
Two fatty acid tails
These pump out excess water that flows in the cell.
Contractile Vacuoles
These are the three products of a photosynthesis reaction.
Oxygen, Water, Glucose
There is a disagreement in the scientific community on if vacuoles in plant cells should actually be classified as these
Lysosomes
This protein allows vesicles to move throughout the cell
Kinesin