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{{Image|Tecun_Uman_statue-Quetzaltenango.jpg|right|250px}}
{{Image|Muncprotein.jpg|right|300px|Inman M ( ) Shape of a common protein module suggests role as molecular switch.}}
'''[[Macromolecular chemistry]]''' is the study of the physical, biological and chemical structure, properties, composition, and reaction mechanisms of [[macromolecules]]. A macromolecule is a molecule that consists of one or more types of repeated 'building blocks'. The building blocks are called  [[Monomer|monomeric unit]]s (monomers).


'''[[Tecum Umam]]''' was a legendary figure of [[Guatemala]]n and [[K'iche']] history. Despite a debate over his historical reality, Tecum Umam is at once a symbol of the state and a symbol of the peoples within the state. Whether in the candlelit ceremonies of ''sacerdotes Mayas'' or in the chambers of the national congress, Tecum Umam's presence is felt in nearly every niche of the daily life of the Guatemalan people.  He is celebrated by poets and invoked in ritual and festival contexts throughout the highlands.  He has been raised to the status of national hero of Guatemala and commemorated on its currency. And he is known as the defender of the K'iche' people and a symbol of indigenous resistance because he refused to surrender to the Spanish conquest of his homeland.
Macromolecules (also known as polymer molecules) appear in daily life in the form of [[plastic]], [[styrofoam]], [[nylon]], etc. These [[polymer]]s, i.e., substances consisting of polymer molecules, are of great technological importance and are used in the manufacturing of all sorts of goods, from automobile parts to household appliances. The artificial polymer molecules usually exist of long repetitions of identical monomers, either in chains or networks.


The legend of Tecum Umam says that he commanded the thousands of K'iche' warriors who met the army of invading Spanish and indigenous warriors under [[Pedro de Alvarado]] on the plains of El Pinar in February of 1524In the midst of the fray, Tecum Umam and Alvarado met face to face, each with weapon in hand. Alvarado was mounted on a horse and clad in armor while Tecum Umam wore the feathers of his [[nagual]] (animal spirit counterpart), the [[Resplendent quetzal|quetzal]]. A battle ensued that claimed the life of the K'iche' hero.
In molecular biology macromolecules (biopolymers) play a very important role: the well-known molecules [[DNA]], [[RNA]], and [[polypeptides]] ([[proteins]]) are examples of macromolecules. In molecular biology one is mostly interested in macromolecules in solution, usually dissolved in waterThe biological function  of macromolecules in living cells is a highly relevant and widely studied topic of research. Although, strictly speaking, biopolymers belong to the class of polymer molecules, there is a tendency not to use the latter name in biological applications, but to speak of macromolecules. The term "polymer"  is usually reserved  for the substances  manufactured in bulk by the chemical industry.  


Taking to the sky in the form of an eagle, Tecum Umam struck down Alvarado's horse believing man and animal to be one and the sameHe realized his error and turned for a second attack but Alvarado's spear pierced his opponent's chest and Tecum Umam fell to the ground dead. Then a quetzal landed on the fallen hero's chest, staining its breast feathers red with blood; the bright colors of the quetzal continue to remind us today of the great deeds of Tecum Umam.
In industry, the value of synthetic macromolecules as plastics and nylon, has risen enormously over the last 60 years. They have made it possible to mould shapes that would have been impossible to create without them. When they were first developed, their resistance to rupture and degradation was seen as a profound advantage, but nowadays we seek more biologically degradable plastics such as polyethyleneglycol that pollute the environment less.
 
Biological macromolecules include, besides the molecules already mentioned, [[enzyme]]s, and [[polysaccharide]]s, such as cellulose and starch. The better understanding of the basic behavior of polymer molecules has enhanced our knowledge of these biological molecules, and studies of partially charged [[polyelectrolytes]] have led to a deeper insight into their biological function. The investigations of the three-dimensional structure of macromolecules, (their [[configuration]] and [[conformation]]), have led to the identification of specific regions that perform specialized activities. A good example is the catalytic role of particular amino acid residues in polypeptide enzymes and the role of [[functional group]]s such as [[biotin]] or [[riboflavin]] in cellular metabolism. The folding of macromolecules is now a topic of much scientific investigation, since the correct folding of these polymers is a critical factor for normal function. Abnormal folding of particular proteins is the cause of several diseases, including [[Alzheimer disease|Alzheimer's]] and [[Creutzfeldt-Jakob disease]] (CJD) .

Revision as of 13:55, 27 May 2011

Inman M ( ) Shape of a common protein module suggests role as molecular switch.

Macromolecular chemistry is the study of the physical, biological and chemical structure, properties, composition, and reaction mechanisms of macromolecules. A macromolecule is a molecule that consists of one or more types of repeated 'building blocks'. The building blocks are called monomeric units (monomers).

Macromolecules (also known as polymer molecules) appear in daily life in the form of plastic, styrofoam, nylon, etc. These polymers, i.e., substances consisting of polymer molecules, are of great technological importance and are used in the manufacturing of all sorts of goods, from automobile parts to household appliances. The artificial polymer molecules usually exist of long repetitions of identical monomers, either in chains or networks.

In molecular biology macromolecules (biopolymers) play a very important role: the well-known molecules DNA, RNA, and polypeptides (proteins) are examples of macromolecules. In molecular biology one is mostly interested in macromolecules in solution, usually dissolved in water. The biological function of macromolecules in living cells is a highly relevant and widely studied topic of research. Although, strictly speaking, biopolymers belong to the class of polymer molecules, there is a tendency not to use the latter name in biological applications, but to speak of macromolecules. The term "polymer" is usually reserved for the substances manufactured in bulk by the chemical industry.

In industry, the value of synthetic macromolecules as plastics and nylon, has risen enormously over the last 60 years. They have made it possible to mould shapes that would have been impossible to create without them. When they were first developed, their resistance to rupture and degradation was seen as a profound advantage, but nowadays we seek more biologically degradable plastics such as polyethyleneglycol that pollute the environment less.

Biological macromolecules include, besides the molecules already mentioned, enzymes, and polysaccharides, such as cellulose and starch. The better understanding of the basic behavior of polymer molecules has enhanced our knowledge of these biological molecules, and studies of partially charged polyelectrolytes have led to a deeper insight into their biological function. The investigations of the three-dimensional structure of macromolecules, (their configuration and conformation), have led to the identification of specific regions that perform specialized activities. A good example is the catalytic role of particular amino acid residues in polypeptide enzymes and the role of functional groups such as biotin or riboflavin in cellular metabolism. The folding of macromolecules is now a topic of much scientific investigation, since the correct folding of these polymers is a critical factor for normal function. Abnormal folding of particular proteins is the cause of several diseases, including Alzheimer's and Creutzfeldt-Jakob disease (CJD) .

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