General Biology Midterm Review

Cell Structures

ATP, or Adenosine triphosphate

Plant Cells

Miscellaneous #1

Miscellaneous #2

100

This cell structure transports proteins and carries ribosomes.

The rough endoplasmic reticulum

100

This is the primary energy-carrying /energy-producing molecule in all living cells.

ATP, or Adenosine triphosphate

100

This type of sugar is produced through photosynthesis.

glucose

100

This is a mixture that can be physically separated by filtering.

A suspension

100

This portion of the cell lies outside of the nucleus, but inside of the cell membrane.

cytoplasm or cytoskeleton

200

This cell structure is where ribosomes are made.

The nucleolus.

200

This molecule is formed if one phosphate bond on an ATP molecule breaks and releases cellular energy.

ADP, or Adenosine diphosphate

200

This converts sunlight's energy to chemical-bond energy.

light reactions/chloroplasts

200

Bonds that hold amino acids together to form proteins are called this

peptide bonds

200

This organic compound is produced when our muscles run out of oxygen, making our muscles feel sore.

lactic acid

300

This cell structure lets RNA (ribonucleic acid) to pass into the cytoplasm.

nuclear envelope

300

When you add two phosphates to this molecule, ATP is formed.

AMP, or Adenosine monophosphate

300

Blue-green algae (and bacteria) are prokaryotic, and they have this type of DNA arrangement.

nucleoid

300

The breaking apart of water molecules to form bonds between other molecules.

hydrolysis

300

This part of a cell allows materials or substances to pass in and out of the cell

Cell membrane

400

This cell part, or organelle, breaks down substances within the cell.

lysosome

400

This is the cell structure where ADP is converted to ATP.

Mitochondria

400

This structure, only found in plant cells (not animal cells), supports and protects the exterior of the cell.

cell wall

400

In eukaryotic cells, genetic information is stored here.

the nucleus

400

This reaction takes place in all living cells, and it keeps the oxygen cycle in homeostatic balance with photosynthesis

respiration

500

These cell parts are responsible for maintaining a cell's osmotic balance, either by taking water into the cells in vessicles or by removing water in vessicles.

vacuoles

500

This process occurs in all living cells with or without oxygen and produces two ATPs.

glycolysis

500

This is the process where chemical bond energy, which was captured from sunlight and then stored, is converted into energy-carrying molecules like glucose.

synthesis reaction

500

This is the process of three nucleotides being put together to create amino acids.

protein synthesis

500

This process involves large, polar molecules being transported into a cell against a concentration gradient without the use of ATPs.

facilitated diffusion