Organic Chemistry- Nitrogen- and Phosphorus-Containing Compounds

Question 1

What 3 elements make up 93% of the human body by weight?

Answer 1

Carbon
Hydrogen
Oxygen

Question 2

What comprises 3.2% of body weight?

Answer 2

Nitrogen

Question 3

What comprises 1% of human body weight?

Answer 3

Phosphorus

Question 4

What are amino acids?

Answer 4

Dipolar molecules that come together through a condensation reaction, forming peptides.

Question 5

What are considered proteins?

Answer 5

Larger, folded peptide chains

Question 6

What is a better description of amino acids?

Answer 6

Containing an amino group and a carboxyl group attached to a single carbon atom (the alpha-carbon). The other two substituents of the alpha-carbon are a hydrogen atom and a side chain referred to as the R group.

Question 7

The alpha-carbon is what in Amino acids?

Answer 7

A Chiral center

Question 8

What is the simplist amino acid?

Answer 8

Glycine

Question 9

Why is glycine an exception to the amino acids?

Answer 9

Because its R group is a hydrogen atom.

Question 10

All naturally occuring amino acids in Eukaryotes (except glycine) are what?

Answer 10

Optically active, and all are L-isomers.

Question 11

How is the Fischer projection of an amion accid drawn?

Answer 11

With the amino group on the left. L-amino acids have (S) configurations.

Question 12

What amino acid is an exception to the (S) configuration? Why?

Answer 12

Cysteine which is (R) because of the change in priority caused by the sulfur in its R group

Question 13

Amino acids are what type of molecules? Why?

Answer 13

Amphoteric molecules

Because of their acidic carboxyl group and basic amino group

Question 14

What are amphoteric molecules?

Answer 14

They can act as both acids and bases.

Question 15

How can amino acids act as both acids and bases?

Answer 15

They can take on a positive charge by being protonated, and carboxyl groups can take on a negative charge by being deprotonated.

Question 16

When amino acid is put in solution, what does it do?

Answer 16

It will take on both of these charges, forming a dipolar ion or zwitterion.

Question 17

How an amino acids act s depend on what? Example?

Answer 17

The pH of the environment.
In basic solutions, the amino acid can become fully deprotonated
In acidic solutions, it can become fully protonated.

Question 18

Each amino acid has properties defined by what?

Answer 18

Its R group

Question 19

The 20 Eukaryotic proteogenic amino acids can be grouped into what 5 categories?

Answer 19

Nonpolar nonaromatic 
Aromatic
Polar
Negatively charged (acidic)
Positively charged (basic)

Question 20

Nonpolar nonaromatic amino acids tend to have side chains that are what?

Answer 20

Saturated hydrocarbons
Cyclic with a secondary amine
Contains sulfur

Question 21

What amino acids are nonpolar nonacromatic?

Answer 21

Alanine
Valine
Leucine
Isoleucine
Methionine

Question 22

Aromatic amino acids include what?

Answer 22

Tryptophan
Phenylalanine
Tyrosine

Question 23

Nonpolar amino acids– both nonaromatic and aromatic– are what?

Answer 23

Also hydrophobic and tend to be sequestered in the interior of proteins

Question 24

Polar amino acids tend to have what?

Answer 24

Terminal groups containing oxygen, nitrogen, or sulfur

Question 25

What are polar amino acid examples?

Answer 25

Serine
Theronine
Asparagine
Glutamine
Cysteine

Question 26

What amino acids are included in negatively charged amino acids?

Answer 26

Aspartic acid and glutamic acid

Question 27

What do negatively charged amino acids have?

Answer 27

Terminal carboxylate anions in their R groups

Question 28

What amino acids are positively charged amino acids?

Answer 28

Arginine
Lysine
Histidine

Question 29

What do positively charged amino acids have?

Answer 29

A protonated amino group in their R groups

Question 30

What categories of amino acids are hydrophilic? What do they tend to form?

Answer 30

Polar
Acidic
and Basic amino acids
Tend to form hydrogen bond with water in aqueous solutions

Question 31

How are peptide bonds formed?

Answer 31

Amino acids undergo cocndensation reactions

Question 32

What are the molecules formed from peptide bonds called?

Answer 32

Polypeptides

Question 33

What are polypeptides?

Answer 33

Base unit of proteins

Question 34

What is the reverse reaction of peptide bonds? How is it catalyzed?

Answer 34

Hydrolysis

Catalyzed by strong acid or base

Question 35

Amides have how many resonance structures?

Answer 35

Two resonance structures

Question 36

What is the true structure of the amide bond?

Answer 36

A hybrid of partial double-bond character between the nitrogen atom and the carbonyl carbon

Question 37

The double-bond in amide bonds does what?

Answer 37

Limits rotation about the C-N bond, which adds to the rigidity and stability of the backbone of proteins.

Question 38

The single bonds in peptide bonds allow what?

Answer 38

Permit free rotation.

Question 39

What is step one of the stecker synthesis?

Answer 39

One starts with an aldehyde, ammonium chloride (NH4Cl) and potassium cyanide (KCN). The carbonyl oxygen is protonated, incresing the electrophilicity of the carbonyl carbon. Then, ammonia can attack the carbonyl carbon, forming an imine. The imine carbon is also susceptible to nucleophilic addition reactions; thus the CN- anion from KCN attacks, forming a nitrile group (-C=-N). Final molecule at the end of step 1 is an aminonitrile

Question 40

What is an aminonitrile?

Answer 40

A compound containing an amino group (-NH2) and a nitrile group.

Question 41

What happens in step 2 of strecker synthesis?

Answer 41

The nitrile nitrogen is protonated, increasing the electrophilicity of the nitril carbon. This is similar to protonating the oxygen of a carbonyl. A water molecule attacks, leading to the creation of a molecule with both imine and hydroxyl moieties on the same carbon. This imine is attacked by another equivalent of water. A carbonyl is formed, kicking off ammonia and creating the carboxylic acid functionality.

Question 42

Step 2 of the strecker synthesis is performed in what? And accelerated How?

Answer 42

Performed in aqueous acid and can be accelerated by the use of heat.

Question 43

What is the starting material for the strecker synthesis?

Answer 43

A planar carbonyl-containing compound.

Question 44

What is the product of strecker synthesis? Why?

Answer 44

A racemic mixture
The incoming nucleophiles are equally able to attack from either side of the carbonyl; thus both L- and D- amino acids can be generated through this process.

Question 45

How is the Gabriel (malonic-ester) Synthesis started?

Answer 45

Potassium phthalimide is reacted with diethyl bromomalonate.
With phthalimide as the nucleophile, the (secondary) substrate carbon as the electrophile, and bromine as the leaving group, this reaction generates a phthalimidomalonic ester.

Question 46

In the Gabriel synthesis phthalimide acts as what? Why?

Answer 46

Acidic and exists in solution as a nucleophilic anion.

Question 47

In the Gabriel synthesis, what does Diethylbromonalonate act as? Why?

Answer 47

Contains a secondary carbon bonded to bromine,

Acts as a good leaving group

Question 48

The Gabriel Synthesis set up should sound like what?

Answer 48

The Sn2 reaction

Question 49

What is the benefits of using a large nucleophile?

Answer 49

The bulkiness of this group creates steric hindrance, which prevents the substrate carbon from undergoing multiple substitions.

Question 50

In the Gabriel synthesis, instead of the substrate carbon undergoing multiple substitions what happens?

Answer 50

In the presence of base, this carbon (which is the alpha-carbon between two carbonyls) can easily be deprotonated. The molecule as a whole can then act as a nucleophile, attacking the substrate carbon of a bromoalkane.

Question 51

What happens in the second step of the Gabriel synthesis?

Answer 51

The molecule is hydrolyzed with strong base and heat. The phthalimide moiety is removed as phthalic acid (with two carboxylic acids). The malonic ester is hydrolyzed to a dicarboxylic acid with an amine on the alpha-carbon.

Question 52

What is the final step of the Gabriel synthesis?

Answer 52

The dicarboxylic acid, which is a 1,3-dicarbonyl, an be deccarboxylated through the addition of acid and heat. THe loss of a molecule of carbon dioxide results in the formation of the complete amino acid.

Question 53

What is the product of the gabriel synthesis? Why?

Answer 53

A racemic mixture because the Gabriel synthesis also starts with a racemi mixture.

Question 54

Why is phosphoric acid an important molecule biochemically?

Answer 54

The molecule forms the high-energy bonds that carry energy in adenosine triphosphate.

Question 55

In biochemical context, phosphoric acid is sometimes referred to as what?

Answer 55

A phosphate group or inorganic phosphate, denoted Pi

Question 56

At physiological pH, inorganic phosphate includes what molecule?

Answer 56

Molecules of both hydrogen phosphate (HPO4 2-) and dihydrogen phosphate (H2PO4-)

Question 57

Phosphorus is also found where? In what type of bonds?

Answer 57

The backbone of DNA in phosphodiester bonds

Question 58

What are phosodiesters?

Answer 58

Bonds linking the sugar moieties of the nucleotides.

Question 59

What is a pyrophosphate and how is it formed?

Answer 59

When a new nucleotide is joined to a growing strand of DNA by a DNA polymerase, it releases an ester dimer of phosphate

Question 60

What does the release of pyrophosphate provide?

Answer 60

The hydrolytic release of this molecule provides the energy for the formation of the new phosphodiester bond.

Question 61

When is pyrophosphate unstable? What happens?

Answer 61

Unstable in aqueous solution and is hydrolyzed to form two molecuesl fo inorganic phosphate, which can then be recycled to form high-energy bonds in ATP or for other purposes.

Question 62

What is referred to as organic phosphates? Why?

Answer 62

Nucleotides, such as ATP, GTP, and those in DNA.

Due to the presence of the phosphate group bonded to a carbon-containing molecule.

Question 63

How is phosphoric acid unique?

Answer 63

It has three acidic hydrogen, each with its own pKa.

Question 64

Phosphoric acid most properly refers to the form that predominates in What?

Answer 64

Strongly Acidic conditions, H3PO4

Question 65

In mildly acidic conditions, what hppens to phosphoric acid?

Answer 65

It loses a proton to become dyhydrogen phosphate, H2PO4

Question 66

In weakly basic solutions, what happnes to phosphoric acid?

Answer 66

It will readily lose a second proton to become hydrogen phosphate, HPO4

Question 67

What is the form of phosphoric acid that exists in strong basic solutions?

Answer 67

Phosphate PO4 3-

Question 68

What is the pKa for the loss of the first hydrogen in phosphoric acid?

Answer 68

2.15

Question 69

What is the pKa for the loss of the second hydrogen in phosphoric acid?

Answer 69

7.20

Question 70

What is the pKa for the loss of the third hydrogen in phosphoric acid?

Answer 70

12.32

Question 71

At a physiological pH of 7.4, what does it mean for dihydrogen phosphate and hydrogen phosphate?

Answer 71

They predominate in nearly equal proportions.

Question 72

What makes phosphates good buffers? Why?

Answer 72

The variety of pKa values

Because they can pick up or give off protons depending on the pH of the solution

Question 73

Adjacent phosphate groups on a nucleotide triphosphate experience what?

Answer 73

A large amount of repulsion because they are negatively charged.

Question 74

The energy released when a phosphate or pyrophosphate is cleaved is ___________? Why?

Answer 74

High. The adjacent phosphate groups combined with the ability of phosphate to stabilize up to three negatively charged.