module 1

Question 1

what is the definitions of biochemistry?

Answer 1

-the study of life at the molecular level
-the application of the principls of chemistry to explain biology
-the common sets of reactions and principles that underlie all living organisms
-the study of the molecular logic of life

Question 2

what do all organisms use?

Answer 2

-a common repertoire of building blocks to create common categories of biomolecules (nucleic acids, proteins, polysaccharides, and lipids)
-a common core of essential biochemical processes

Question 3

what are the four foundations of the living state?

Answer 3

-chemical
-energy
-evolutionary
-genetic

Question 4

what are the four elements that make up 98% of most organisms?

Answer 4

-carbon
-hydrogen
-oxygen
-nitrogen

-water accounts for much of O and H

Question 5

what are all known life forms?

Answer 5

-carbon based

Question 6

what are the readily available elements in the biosphere?

Answer 6

-carbon (from air through plants)
-oxygen (from air)
-hydrogen (from water)

Question 7

who was fritz haber?

Answer 7

-allowed for 3 billion more people to eat
-created technique to get nitrogen from air and convert into nitrates to use in fertilizer

Question 8

what was fritz haber’s downside?

Answer 8

-repurposed his method into gunpowder, mustard gas, chemical weapons
-responsible for thousands of soldiers death
-was a jew, later used in concentration camps
-wife committed suicide

Question 9

what is the availability of nitrogen?

Answer 9

–N in soil limits growth of plants, limits the amount of food we can produce
-naturally occurring N in soil, only enough food for 4 billion people
-

Question 10

how much are we worth?

Answer 10

-chemicals in body are worth less than a dollar
-sum of parts (tissues, organs, biomolecules) are estimated 45 million dollars

Question 11

why is carbon so versatile?

Answer 11

-number and variety of chemical bonds it can form
-enables to create wide array of complex molecules
-ex: amino acids, sugars, nucleotides

Question 12

what is silicon?

Answer 12

-the next best candidate as a chem found for life
-also can form four covalent bonds
-highly abundant in the earth’s atmosphere

Question 13

why are we based in carbon rather than silicon?

Answer 13

-C to C is stronger than S to S (more stable)
-more energy released on combustion (c to c)
-combustion products of carbon (CO2) are soluble and remain active in the biosphere
-silicon dioxide is insoluble, cant be recycled

Question 14

why are functional groups unique?

Answer 14

-their size, shape, charge, reactivities, and hydrogen bonding capacity
-the properties of the functional groups determine the structure, function and properties of the biomolecule (anticipate behavior)

Question 15

why is it important to understand the structure?

Answer 15

-structure dictates function
-do what they do bc of their structures
-allows to predict molecular function, understand complex biology and rationale development of treatments

Question 16

what is conformation?

Answer 16

-flexible spatial arrangement of atoms within a molecules (can be changed without breaking covalent bonds)
-Ex: piece of paper example

Question 17

what is configuration?

Answer 17

-fixed spatial arrangement of atoms within a molecule (cannot be changed without breaking covalent bonds)
-conferred by either double bonds or chiral centers
-much more dramatic
-ex: cutting off a finger

Question 18

what are geometric (cis-trans) isomers?

Answer 18

-have the same chemical formula but differ in the configuration of groups with respect to a non-rotating double bond
-configuration double bond perspective
-can have very diff biological properties

Question 19

what are cis and trans?

Answer 19

-cis= on this side groups on the same side as the double bond
-trans=across groups on opposite sides of the double bond

Question 20

what is a chiral carbon?

Answer 20

-has 4 diff substituents attaches: may be arranged in diff ways in space yielding two stereoisomers that differ in their configuration

Question 21

what is a stereoisomer?

Answer 21

-chemical properties tend to be identical
-biological properties are often distinct

Question 22

how are stereoisomers diff during chemical reactions vs biochemistry?

Answer 22

-chem= not usually stereo specific
-biochem= stereo specific in terms of chemical reactions

Question 23

what is contruction?

Answer 23

-biomolecules often constructed exclusively from one stereo isomer
-ex: proteins are built entirely from L-amino acids

Question 24

what are interactions? (biochem=stereospecific)

Answer 24

-interactions between biomolecules and between biomolecules and small molecules are stereospecific
-reaction with diff receptors change sensation

Question 25

where does chemistry meet biology?

Answer 25

-synthesis of chemical compounds which have asymmetric carbons result in a mixture of all the chiral forms
-these forms may have different biological activities (therapeutic benefits, pathological side affects differ)

Question 26

what is an example of how two different chiral forms can cause different effects?

Answer 26

-thalidomide has two chiral forms, one causes birth defects
-Frances Kelsey (canadian physician working for FDA) saved children after she refused approval

Question 27

how are biomolecules similar to words in a sentence?

Answer 27

-the structure and function of the resulting biomolecules are more complex than their precursor molecules
-the whole is greater than the sum of parts

Question 28

what are the advantages of constructing biologicals as polymers?

Answer 28

-simplicity: simple and conserved reactions for synthesis and degradation (body has 20000 diff proteins, all from same building blocks)

-recycling: biomolecules can be digested back to component building blocks which are reusable

-diversity: incredibly complex molecules can be generated

Question 29

what are the four classes of biomolecules?

Answer 29

-proteins
-carbohydrates
-nucleic acids
-lipids

Question 30

what are proteins?

Answer 30

-linear polymers of amino acids
-20 different amino acids
-carboxyl links to amino group of next amino acid
-aminos link to form linear chains that fold into complex patterns with distinct biological activities

Question 31

what are polysaccharides?

Answer 31

-made of sugars
-monosaccharides linked together to form linear or branched polymers
-biological roles include structural, energy storage, and cellular recognition
-linked through glycosidic linkages
-form branch points (can form more than 1 covalent bond)

Question 32

what are nucleic acids?

Answer 32

-linear polymers of nucleotide building blocks (5 building blocks for DNA and RNA)
-involved in all aspects of storage and utilization of genetic information
-linked through phosphodiester bonds

Question 33

what are lipids?

Answer 33

-are aggregates (rather than defined polymers) of building blocks
-serve in energy storage, formation of membranes and signaling
-not joined through covalent bonds (only 1)
-use non-covalent forms which allows freedom of rotation

Question 34

what are prokaryotes?

Answer 34

-small (1 nano meter in diameter), simple, single cell organisms (bacteria)
-rapid growth, quick adaptations to changing environmental conditions
-a single compartment, the nucleoid, which contains nucleic acid. Other biomolecules (proteins, etc) in a complex, organized mix

Question 35

what are eukaryotes?

Answer 35

-large, complex cells (100 nanometers)
-make up multi-cellular organisms
-organelles (mitochondria, nucleus, etc) to support specialized functions
-differentiation of cells to unique and specialized cell types

Question 36

how many euk and pro cells do we have in our bodies?

Answer 36

-30 trillion euks
-100 trillion pros

Question 37

why are pros critical for our health?

Answer 37

-bacteria in the gut helps digest food and maintain a functional immune system
-our second brain (the gut), including the microflora, may impact mental health, obesity and intelligence

Question 38

what are some ways to influence the microbiota?

Answer 38

-diet
-pro and prebiotics
-fecal transplants

Question 39

what is a major challenge of biochemistry?

Answer 39

-studying molecules in isolation simplifies experiments but may be at the expense of biological significance
-experiements which are siccessful in vitro often fail in vitro

Question 40

what are the two experimental appraoches?

Answer 40

-in vitro: studies the behavior of molecules outside the context of the cell and organism
-in vivo (in the living) : studies occur within the complexity of the cell or organism

Question 41

how expensive is the energy we use in one day?

Answer 41

-to purchase all the ATP from our body in one day would be about 4.5 million dllars

Question 42

what can cellular energy conversion be considered in the context of?

Answer 42

-laws of thermodynamics

Question 43

what is the first law of thermodynamics?

Answer 43

-in any physical or chemical change, the total amount of energy in the universe remains constant, although the forms of the energy may change
-can’t be created nor destroyed

Question 44

how are cells related to the first law of thermodynamics?

Answer 44

-cells are highly effective transducers of energy, converting the energy of metabolized nutrients, or the energy of the sun, into work, heat, or the generation of complex biomolecules

Question 45

what is the second law of thermodynamics?

Answer 45

-the tendency in nature is toward ever greater disorder: the total entropy (disorder) of the universe is continually increasing

-however, living systems and their biomolecules require a high degree of organization

Question 46

what is free energy?

Answer 46

-willard gibbs developed the theory of energy change during chemical reactions

-free energy of any closed system can defined as:
Free energy: G=H-TS
Free energy change: change of G=change of (enthalpy)-(temperature)(change in entropy)

-enthalpy (H)= reflects the number and kinds of bonds
-entropy (S)= the degree of randomness
-temperature= in degrees kelvin

Question 47

what does free energy mean?

Answer 47

-change in G >0: non-spontaneous process, needs input of free energy to proceed, endergonic
-change in G<0: spontaneous process, releases free energy which cane be used to do work; proceeds until equilibrium is reached, exergonic
-change in G=0: system is at equilibrium, there is no change in free energy in the system

Question 48

how does energy coupling link to reactions in biology?

Answer 48

-cells can drive thermodynamically unfavorable reactions by coupling energy requiring (endergonic) to energy releasing (exergonic) reactions
-if the sum of the free energy changes is negative, then the overall process is exergonic

Question 49

what is the central role of ATP in metabolism?

Answer 49

-energy extracted to the form of adenosine triphosphate (ATP) which serves as a common energy current
-ATP serves as the link between catabolic reactions and anabolic (building things up) reactions

Question 50

what does the perpetuation of life requires that genetic information be:

Answer 50

-stored in a stable form
-expressed accurately in the form of gene products
-reproduced with minimal errors

Question 51

for many organisms, DNA provides:

Answer 51

-the instructions for forming all other cellular components
-a template for production of identical DNA molecules to be distributed to the progeny when a cell divides

Question 52

what is the central dogma of biochemistry?

Answer 52

DNA ->RNA -> proteins
transcription->translation

Question 53

what is the structure of DNA?

Answer 53

-two complimentary strands
-each strand is a linear polymer of four different types of building blocks
-it is a linear sequence within the strands that encodes information

Question 54

what does amino acids have to do with genetic foundations?

Answer 54

-the nucleotide sequence of genes dictates the sequence of amino acids incorporated into the corresponding protein
-the amino acid sequence of the proteins dictates the structure->dictates its biological activity

Question 55

how does the changes in hereditary instructions allow evolution?

Answer 55

-random changes in genotype can result in a change in phenotype
-of this change offers a survival advantage, it will be selected over time
-fuel for evolution