Full Length #1

Question 1

Suppose that multiple newly created amino acids interact to build a small protein molecule. The primary structure of that protein is formed when:

Answer 1

• primary structure of polypeptide is the order in which amino acids are connected to one another
• peptide bonds occur when the lone pair of electrons on one amino-acid terminus attack the carbonyl carbon of another amino acid’s carboxy terminus

A: the amino terminus of one amino acids attacks the carboxyl terminus of another

Question 2

Experimenters isolate a biological sample believed to be composed entirely of glycine. In order to confirm their belief, they can hydrolyze the peptide and then:

Answer 2

A: use polarized light in order to determine whether or not the sample is optically active

-glycine is the only amino acid with no chiral center, therefore a sample of pure glycine will not be optically active

Question 3

Atomic oxygen is extremely reactive and not found in any significant quantity on Earth’s surface because:

Answer 3

A: it is a free radical

Atomic Oxygen has 8 electrons, 2 inner and 6 valence
1s^2 2s^2 2p^4
- there are unpaired valence electrons in the p orbital, these are known as free radicals
-free radicals are extremely chemically reactive

Question 4

What does an electrophile do

Answer 4

Donates protons and accepts electrons

Lewis acid

Question 5

What does a nucleophile do

Answer 5

accepts protons and donates electrons

Lewis base

Question 6

Which of the following will increase the yield of carboxylic acid from a nitrile group-containing compound, using a mechanism similar to the Strecker synthesis?

Answer 6

A: attach an electron withdrawing group to the carbon of the nitrile group

• if we attach another electron-withdrawing group to the carbon, that carbon will be even more electron deficient and act as a better electrophile, increasing the yield of carboxylic acid

Question 7

The index of refraction of vitreous humor is greater than the index of refraction of aqueous humor, which is greater than the index of refraction of air. How does the speed of light in each of these media compare?

Answer 7

A: fastest in air, slower in aqueous humor, slowest in vitreous humor

• material with the LOWEST index of refraction will enable light to travel through it at the fastest speed
• increasing indices of refraction = decreasing order of speed of light in the media

Question 8

What is true of the image formed by the retina

Answer 8

• it is real: the image is real if the object is placed outside the focal length
• it is reduced in size: the retina is about the size of a postage stamp, so if you are able to view an object larger than a postage stamp, the image must be reduced
• it is inverted: any real image formed by a converging lens is inverted

Question 9

Which of the following accurately describes the difference between alpha-D-glucose and beta-D-glucose?

Answer 9

A: the hemiacetal carbons of alpha-D-glucose and beta-D-glucose have opposite absolute configurations

• they are a pair of two anomers
• anoers differ only in the absolute configuration at the anomeric carbon
• anomeric carbon is the carbon at the center of a hemiacetal group whose configuration will determine whether the -OH is axial or equatorial

Question 10

When blood is donated, it is important that no active active antibodies are transferred along with the red blood cells. IN order to accomplish this, a reducing agent, which breaks the disulfide bonds that maintain the quaternary structure of antibodies, is added to donate blood. This is effective because:

Answer 10

A: when cystine accepts electrons, it separates into two cysteine groups that are located on separate polypeptides

• disulfide bonds maintain quaternary structure of antibodies
• disulfide bonds are covalent bonds between two thiol groups (R-SH)
• reducing agent will break disulfide bonds
• in proteins, disulfide bonds occur between two cysteine amino acids to form a single unit
• reducing means GAINING ELECTRONS

Question 11

When an acyl halide reacts with a primary alcohol, which of the following will form?

Answer 11

A: an ester

• carbon of the acyl acts as an electrophile (accepts electrons) from the alcohol since it has lone pairs of electrons
• electrons reform a double bond kicking off the halide
• oxygen from the alcohol group loses its proton (and positive charge) and we are left with an ester

Question 12

what complex carbohydrates contains multiple 5 or 6-carbon rings?

Answer 12

polysaccharides

nulceotides

Question 13

what complex carbohydrates contain alcohol functional groups?

Answer 13

all polysaccharides and more
both nucleotides
and most polypeptides (ones with -OH containing R-groups)

Question 14

what complex carbohydrates contain branched chains?

Answer 14

polysaccharides CAN contain branched chains, but not necessary

Question 15

how are disaccharides formed

Answer 15

the attack of the anomeric carbon’s OH group on one cyclic monosaccharide by an alcohol from another monosaccharide will lead to a glycosidic bond

Question 16

where will glycosidic linkage form with disaccharides?

Answer 16

• most commonly b/w C-1 (anomeric carbon) of the first sugar and C-4 of the second sugar
• called 1-4 glycosidic linkage

Question 17

How do you transfer from the fischer diagram to the haworth projections? How do you know what points up and what points down?

Answer 17

Downright
Uplefting!

D sugar - points up

Question 18

pyranose

Answer 18

6 membered carbohydrate rings

Question 19

maltose

Answer 19

made of 2 pyranoses (6 membered ring)

• made of 2 glucose rings
• reducing sugar (along with lactose) because they have a hemiacetal that can be reduced to an acetal

Question 20

sucrose

Answer 20

1 six membered ring (glucose)
1 five membered ring (fructose)
linked together by their anomeric carbons
-non reducing sugar because it already has an acetal

Question 21

polysaccharides

Answer 21

can be made from reducing sugars

ex: cellulose (made of repeating glucose connected by beta 1,4-glycosidic linkages
ex: starch (repeating glucose connected by alpha 1,4-glycosidic linkages)

Question 22

what makes up the atomic mass

Answer 22

protons + neutrons

Question 23

How do we find the number of protons?

Answer 23

look at the atomic number!

Question 24

What does a catalyst do?

Answer 24

• accelerates a reaction by lowering one or more of the activation energies of the reaction
• does NOT change the deltaH of the reaction (state function)

Question 25

zeroth-order reactions

Answer 25

-rate is independent of concentration

rate law is: rate = k

Question 26

first-order reactions

Answer 26

reaction rate is directly proportional to the concentration of one of the reactants
- general form: A -> products

Question 27

second-order reactions

Answer 27

rate is proportion to the square concentration of one reactant
- general form: 2A -> products

or

-reaction rate is proportional to the product of the concentrations of two reactants
general form: A + B -> products

Question 28

the slowest step of a reaction mechanism is usually known as what?

Answer 28

rate-determining step

Question 29

characteristics of a spontaneous reaction

Answer 29

delta S > 0
delta G <0
Q < K

Question 30

characteristics of an equilibrium reaction

Answer 30

delta S = 0
delta G = 0
Q = K

Question 31

Characteristics of a nonspontaneous reaction

Answer 31

dela S < 0
delta G > 0
Q > K

Question 32

what does net torque determine

Answer 32

angular acceleration

Question 33

what does a buffer do?

Answer 33

resists a change in pH

Question 34

if an acid is a weak triprotic acid, what does that mean?

Answer 34

that is has 3 pKa values and 3 different weak acid states

Question 35

racemization

Answer 35

a compound undergoes a reaction and the transformation produces an equal mixture of both possible enantiomers (non-superimposable mirror images)

Question 36

what do enzymes affect in a reaction?

Answer 36

enzymes only affect the kinematics of a reaction, not it’s thermodynamics

-deltaH (enthalpy change) is a thermodynamic so it is unaffected by an enzyme

Question 37

what happens when you have a strong acid-strong base titration?

Answer 37

the acid and base will react to form a neutral solution

• at the equivalence point of the reaction, ions of both the strong acid and base will react to form water, leading to a pH of 7

Question 38

what are purines

Answer 38

the A and G of the DNA sequence

the A and G of the RNA bases

the big ones with 2 rings

Question 39

what are pyrimidines

Answer 39

T and C of the DNA sequence

U and C of the RNA sequence

the small ones with 1 ring

Question 40

what role does vitamin b12 have with DNA and RNA synthesis?

Answer 40

• important for DNA synthesis and ensures structural stability of important regions of the chromosomes.
• involved in the formation of red blood cells
• plays a part in the synthesis of fatty acids and energy production

Question 41

Denaturation of protein involves the breaking of what type of bonds?

Answer 41

A: hydrogen bonds

• this means a loss of quarternary/tertiary/secondary structure, which is most likely due to disruption of H-bonds

Question 42

what are stereoisomers

Answer 42

isomers that differ in the 3D arrangement of atoms

Question 43

enantiomers

Answer 43

stereoisomes that are non-superimposable mirror images

-same physical properties with the exception of the direction of polarization for plane polarized light

Question 44

chiral center

Answer 44

tetrahedral carbon (sp3 hybridized) that has four different groups

Question 45

characteristic of peptide bonds

Answer 45

• very stable under physiological conditions
• low reactivity
• resonant: have partial double bond character, which restricts them to a planar molecular geometry

Question 46

bond enthalpy

Answer 46

energy that it takes to break 1 mol of a bond in the gas phase

• always positive = takes energy
• reverse of reaction = making a bond= releases energy (negative)
• can use to estimate the deltaH

Question 47

know how to categorize the periodic table

Answer 47

practice

Question 48

DNA sequencing steps

Answer 48

1. PCR to amplify sample
2. add in di-deoxynucleotide (ddNTP) - the strand can no longer elongate, varies in length
3. gel electrophoresis in order to separate the strands by size

Question 49

what happens in the absence of ddNTP?

Answer 49

DNA polyermase will replicate the entire template and thus produce complete copies– all of the same length
- will show in gel electrophoresis as a single dark band because gel electrophoresis separates by the size of the strand

Question 50

Boyle’s Law

Answer 50

P1V1 = PfVf

Question 51

As oxygen is consumed underwater, the body also produces carbon dioxide. This has the effect of:

Answer 51

A: decreasing the pH of the blood

• increase in carbon dioxide production in the body leads to more carbonic acid in the bloodstream, lowering the pH of the blood

Question 52

what process participate in aerobic cellular respiration

Answer 52

• pyruvate dehydrogenase

- isocitrate dehydrogenase

Question 53

alcohol dehydrogenase

Answer 53

break down ethanol (production of fermentation in yeast)

Question 54

what process will dominate in animals with reduced metabolism and reduced access to oxygen

Answer 54

anaerobic metabolism (fermentation)

• lactate dehydrogenase: produces lactic acid, which is toxic

Question 55

if points d, e, and f are in series, what does that mean about the current through each?

Answer 55

it is the same

Question 56

what is Ohm’s Law?

Answer 56

I = V/ (R1 + R2)

states that the current through a conductor between two points is directly proportional to the voltage across the two points

Question 57

if the voltage change is negative between two points, then what can we assume?

Answer 57

the current is moving toward the cell and electrons must be moving away from the cell

Question 58

if a compound has strong intermolecular hydrogen bonds, what kinds of characteristics will we see?

Answer 58

• higher melting points

- form more hydrogen bonds with water, so they are more water soluble

Question 59

if a compound has intramolecular hydrogen binding, what kind of characteristics will we see?

Answer 59

intramolecular hydrogen bonding reduces the molecule’s ability to hydrogen bond with water, making the compound less water-soluble