Arguelles, Era F. - PowerPoint PPT Presentation

About This Presentation
Title:

Arguelles, Era F.

Description:

Title: Nitrogen Containing Organic Compounds Author: K.J.Riley Last modified by: Era Created Date: 3/13/2005 4:23:58 PM Document presentation format – PowerPoint PPT presentation

Number of Views:134
Avg rating:3.0/5.0
Slides: 35
Provided by: KJ9
Category:

less

Transcript and Presenter's Notes

Title: Arguelles, Era F.


1
Nitrogen Containing Organic Compounds
  • By
  • Arguelles, Era F.
  • IV- BSCT
  • NATURAL PRODUCTS

2
The Amino Group
  • Nitrogen - involves itself in organic chemistry
    as the amino group, -NH2 In this group, there are
    three normal bonds for N.
  • Nitrogen can be attached to up to four carbon
    chains to make amines and ammonium ions, or can
    be substituted for OH in the carboxylic acids to
    make amides.

3
Amines
  • Amines - are basic compounds that show
    considerable physical and chemical similarities
    to ammonia and isolated from plants from a group
    of compounds called alkaloids

Ammonia
Amine
4
  • Amines however are classified as
  • Primary amine (1)
  • Secondary amine (2)
  • Tertiary amine (3)

5
Amines
  • Naming amines is done similarly to the
    ethersname the carbon groups connected to the
    nitrogen
  • If the amino group is not the only functional
    group present, it is not named as an amine, since
    it does not have priority. It is then named and
    numbered as a substitution, even if there are
    carbon chains attached to it.

6
Examples
  • propylamine
  • methy ethyl amine
  • dimethyl ethyl amine
  • aniline
  • N-methyl aniline
  • N,N-dimethyl aniline

7
Basic Properties of Amines
  • Just like ammonia acts as a base due to its lone
    pair of electrons on the Nitrogen.
  • The strength of amines as bases depends on the
    type and number of carbon groups attached to the
    N alkyl groups increase the strength, aromatic
    groups decrease the strength.

8
Reactions of Amines
  • With acids they form salts
  • With alkyl halides, 3 amines can form quaternary
    ammonium salts
  • With nitrites, nitrosamines can be formed
  • These nitrosamines are highly carcinogenic, and
    are made from any amine with nitrites or
    nitrates in preserved foods within the stomach.

9
  • AMIDES

- are compounds which contain nitrogen directly
attached to a carbon in a carbonyl group and
nitrogen derivatives of carboxylic acids
10
  • Properties of Amides
  • All amides can form hydrogen bond with water,
    so low molecular weight amides are water-soluble.
  • unlike amines, amides are not basic.

11
Examples of nitrogen- containing compounds
(Amines)
CAFFEINE
NICOTINE
QUININE
S E R O T O N I N
D O P A M I N E
12
  • Dopamine
  • A catecholamine neurotransmitter present in a
    wide variety of animals, including both
    vertebrates and invertebrates.
  • In the brain, this substituted phenethylamine
    functions as a neurotransmitter, activating the
    five known types of dopamine receptorsD1, D2,
    D3, D4, and D5and their variants

13
  • Dopamine
  • Dopamine is produced in several areas of the
    brain, including the substantia nigra and the
    ventral tegmental area.
  • It is also a neurohormone released by the
    hypothalamus.
  • The main function as a hormone is to inhibit the
    release of prolactin from the anterior lobe of
    the pituitary.

14
  • Caffeine
  • a bitter, white crystalline xanthine alkaloid
    that acts as a stimulant drug.
  • Caffeine is found in varying quantities in the
    seeds, leaves, and fruit of some plants, where it
    acts as a natural pesticide that paralyzes and
    kills certain insects feeding on the plants.

15
  • Caffeine
  • most commonly consumed by humans in infusions
    extracted from the bean of the coffee plant and
    the leaves of the tea bush, as well as from
    various foods and drinks containing products
    derived from the kola nut.

16
  • Nicotine
  • Found in the nightshade family of plants
    (Solanaceae) that constitutes approximately
    0.63.0 of the dry weight of tobacco.
  • Biosynthesis taking place in the roots and
    accumulation occurring in the leaves

17
  • Nicotine
  • It functions as an antiherbivore chemical with
    particular specificity to insects nicotine was
    widely used as an insecticide in the past.
  • Currently nicotine analogs such as imidacloprid
    continue to be widely used.

18
  • Nicotine

19
  • Quinine
  • A natural white crystalline alkaloid having
    antipyretic (fever-reducing), antimalarial,
    analgesic (painkilling), anti-inflammatory
    properties and a bitter taste.
  • A stereoisomer of quinidine which, unlike
    quinine, is an anti-arrhythmic.
  • Quinine contains two major fused-ring systems
    the aromatic quinoline and the bicyclic
    quinuclidine.

20
  • Quinine
  • occurs naturally in the bark of the cinchona tree.

(Plasmodium falciparum)
  • Quinine was the first effective treatment for
    malaria caused by Plasmodium falciparum,
    appearing in therapeutics in the 17th century.

21
  • Serotonin
  • A monoamine neurotransmitter.
  • Biochemically derived from tryptophan, serotonin
    is primarily found in the gastrointestinal (GI)
    tract, platelets, and in the central nervous
    system (CNS) of animals including humans.
  • It is a well-known contributor to feelings of
    well-being it is also known to contribute to
    happiness.

22
  • NITROGEN- CONTAINING PRIMARY METABOLITES

A. Purines and Pyrimidines
B. Nucleotides and Nucleosides
23
A. Purines and Pyrimidines
  • PYRIMIDINE
  • A heterocyclic aromatic organic compound similar
    to benzene and pyridine, containing two nitrogen
    atoms at positions 1 and 3 of the six-member
    ring.
  • It is isomeric with two other forms of diazine.

24
1. Pyrimidine
Derived from the three nucleobases found in
nucleic acids, cytosine (C), thymine (T), and
uracil (U).
thymine
cytosine
uracil
25
  • 2. PURINE
  • A heterocyclic aromatic organic compound,
    consisting of a pyrimidine ring fused to an
    imidazole ring.
  • Purines, including substituted purines and their
    tautomers, are the most widely distributed kind
    of nitrogen-containing heterocycle in nature.

26
  • Other Notable Purines

isoguanine
caffeine
theobromine
Uric acid
hypoxanthine
xanthine
27
  • Functions of Purines

Aside from DNA and RNA, purines are
biochemically significant components in a number
of other important biomolecules, such as ATP,
GTP, cyclic AMP, NADH, and coenzyme A.
28
A. Purines and Pyrimidines
DNA
Purine Pyrimidine
Adenine (A) Thymine (T)
Guanine (G) Cytosine (C)
29
A. Purines and Pyrimidines
RNA
Purine Pyrimidine
Adenine (A) Uracil (U)
Guanine (G) Cytosine (C)
30
B. Nucleotides and Nucleosides
  • 1. Nucleosides
  • Glycosylamines consisting of a nucleobase (often
    referred to as simply base) bound to a ribose or
    deoxyribose sugar via a beta-glycosidic linkage.
    Examples of nucleosides include cytidine,
    uridine, adenosine, guanosine, thymidine and
    inosine.

31
1. Nucleosides
32
B. Nucleotides and Nucleosides
2. Nucleotides
  • Nucleotides are molecules that, when joined
    together, make up the structural units of RNA and
    DNA. In addition, nucleotides participate in
    cellular signaling (cyclic guanosine
    monophosphate and cyclic adenosine
    monophosphate).
  • Incorporated into important cofactors of
    enzymatic reactions (coenzyme A, flavin adenine
    dinucleotide, flavin mononucleotide, and
    nicotinamide adenine dinucleotide phosphate).

33
2. Nucleotides
  • Nucleotide derivatives such as the nucleoside
    triphosphates play central roles in metabolism,
    in which capacity they serve as sources of
    chemical energy (adenosine triphosphate and
    guanosine triphosphate).

34
2. Nucleotides
Write a Comment
User Comments (0)
About PowerShow.com