BIOL302 Exam 3

Membrane Structure

Membrane Proteins

Studying Membrane Proteins

Membrane Transport

Ions

Ion Channels

Glycolysis

TCA

OXPHOS

Photosynthesis

100

The term that describes how phospholipids have both hydrophilic and hydrophobic properties

Amphipathic

100

Membrane proteins comprise this percentage of the plasma membrane

50%

100

These are small, amphipathic molecules that can be used to study membrane proteins by disturbing the lipid bilayer

Detergents

100

This type of transport requires the addition of energy to move solutes

Active Transport

100

In the Na⁺ - K⁺ pump, 3 Na⁺ are pumped in this direction and 2 K⁺ are pumped in this direction.

3 Na⁺ outside of the cell

2 K⁺ inside of the cell

100

This type of ion channel opens and closes in response to membrane potential

Voltage-gated

100

The purpose of glycolysis is to break down this sugar.

Glucose

100

What molecule is pyruvate made into that feeds into the TCA?

Acetyl CoA

100

Where in the mitochondria does oxidative phosphorylation occur?

Inner mitochondrial membrane

100

The organelle where photosynthesis takes place

Chloroplast

200

These two properties of a phospholipid tail would result in a less fluid membrane

Saturated Hydrocarbons

Longer Chains

200

This type of membrane protein extends across the bilayer as either an alpha helix or a beta sheet

Transmembrane

200

This experimental technique measures lateral diffusion of membrane proteins

FRAP

200

This property allows molecules to readily pass through membranes without assistance

Nonpolar

200

The "leaking" of this ion helps to maintain membrane potential

K+

200

This type of ion channel can be found in our ears and open in response to sound vibrations

Mechanically-gated

200

The first enzyme in the glycolytic pathway is this and converts glucose into glucose 6-phosphate

hexokinase

200

How many steps are there in the TCA?

200

What high energy carrier passes electrons to complex I of the ETC?

NADH

200

These are the two stages of photosynthesis.

Light reactions and Calvin cycle

300

This enzyme is responsible for moving random phospholipids across the bilayer

Scramblase

300

This is a strong ionic detergent that can displace lipids and unfold proteins

SDS

300

One of the ways in which membrane protein movement can be restricted

Tethered to the cortex

Attached to proteins on another cell's surface

Diffusion barriers

Attached to extracellular matrix molecules

300

This type of membrane protein undergoes a conformational change in order to move molecules across the bilayer

Transporter

300

The movement of this ion is ATP driven and pumps for it can be found on the plasma membrane or the ER

Ca²⁺

300

In neurons, this type of ion channels is the first to open in neurons, resulting in membrane depolarization

Ligand-gated

300

The final products of glycolysis are...

2 pyruvate, 2 ATP, 2 NADH

300

These are the products of the citric acid cycle

3 NADH, 1 FADH2, 1 GTP

300

This mobile carrier contains an iron and transfers electrons from complex III to complex IV.

Cytochrome C

300

This is the key light-capturing pigment that participates in the light reactions

Chlorophyll A

400

This organelle is where membrane assembly begins

Endoplasmic Reticulum

400

This protein supports the membrane of red blood cells by forming a lattice

Spectrin

400

This technique can follow an individual molecule within a membrane to determine its mobility

Single Particle Tracking

400

This is the type of gradient that works upon ions

Electrochemical Gradient

400

The electrochemical gradient of this ion helps drive glucose transport into animal cells

Na⁺

400

This technique can be used by scientists to monitor the activity of ion channels by connecting an electrode to a region of the cell membrane

Patch-clamp

400

These steps in glycolysis are irreversible

1, 3, and 10

400

Acetyl CoA is added to this final product of the TCA, generating citrate

Oxaloacetate

400

These establish a proton gradient that helps drive the generation of ATP.

Protons

400

This mobile electron carrier passes electrons from photosystem II to a proton pump.

Plastoquinone

500

The addition of these adds a protective coat to animal cells

Carbohydrates

500

You would likely expect to find this type of amino acid on the inside of beta-barrel

Polar or Charged

500

What is recognized on the surface of neutrophils that allows them to exit the bloodstream to go to the site of infection?

Carbohydrates

500

This type of channel has a selectivity filter and is often gated

Ion Channels

500

The pumping of this ion is important in controlling pH in various cellular compartments

H⁺

500

The opening of ion channels allows for this to happen to membranes, generating an action potential.

Depolarization

500

This enzyme splits the 6-carbon sugar into 2, 3-carbon sugars.

Aldolase

500

This enzyme removes 2 hydrogens from succinate, donating them to FAD and producing fumarate. It is also complex II of the ETC.

Succinate Dehydrogenase

500

Also known as cytochrome c oxidase

Complex IV

500

These are the 3 phases of the Calvin cycle

1. Carbon Fixation

2. Reduction

3. Regeneration of RuBP