Biochemistry PDF

Summary

These notes cover various aspects of biochemistry, including the chemistry of living beings, biomolecules, chemical bonding, and different types of biomolecules such as carbohydrates, lipids, and proteins. It discusses concepts like monosaccharides, oligosaccharides, and polysaccharides, as well as other topics linked to the subject.

Full Transcript

Biochemistry
Chemistry ofLivingBeings Studyofstructure composition chemicalreactionofsubstances
Chemicalprocessoccurin LivingBeings
Biomolecule
Iiii.ee ii
gji ionagroups.Tiij it ii ftp.eitias

iin.roge i.wlafe
compounds
9amEralsTa ffariates.Fias fromtenst n Acia majorbiomolecules
Simappelowmw large highmolecularweight complexstructure

subunits Monomer sister two
mating
Madeof linking mono polymer m

holdtwoatomstogether Chemical bonding Joiningoftwoatoms
Ionic t Metallic
donaterecieve gnare movefreely Electron
b wnonmetal metal b w nonmetal Metal
Stereoisomers molecules thathavethesamemolecularformula of
sequence bondedatoms
Stereochemistry study the 3 Dimensionalarrangement atoms
of of

same molecularformula butdiff geometery
respect to nonvotatingdoublebond

Thisside Tacross Carbonwith4diffsubstituent asymmetriccarbons
chiralcenters

Carbohydrates
mostabundant C H oatoms of
source energy manycompoundsmade
fromit
Monosaccharides Oligosaccharides Polysaccharide
Basicunitofcarb can be brokenfurther nonsoluble tasteless
cannot bebrokendown 2 10monosaccharide on noncrystalline
3 6carbons simple hydrolysis more then10monosaccharide
CnCHaon soluble sweet onhydrolysis
aqueoussol inclosed from5C
ringstarting 1 Disaccharide sugars 2mono
Based on noOfc 2 Trisaccharide13mono
Tri 3 Tetrosesa 3Tetra saccharide umond

Hex6
I p found.in all didpoly
Based on functional
group saccharides
Aldoses
fg Aldehyde CHO
ketoses
fg ketone co fruitsugar
rioses glycerose acetone
Dihydroxy found in milk
Tetroses Erythrose Erythrulose convertsintoglucosein
body
 vitstructure
of
source energy hormonestructure
essentialfor

estersojjattj.at aicna Lipids nettijéiÑ infolube
inwatersolubeinorgansigents

Simple compound Derived
Triglyceride waxes Phospholipid Glycolipid steroids sterols cartenoids
storeenergy formcellmembrane skeleton
carbon morehydroxyl
song of acid
chains fatty hydrophilichead hydrophobictail of
consist ausearing groupnocarbonyl
esterofta glycerol Itail saturated unsaturated cholesterol orcarboxyl
group
glycerol acid
fatty
madeofcarboxylgroup faith.toigher 5597 Proteins enzyme
digestive

hydrocarbonchain
1ormorepoiieiie
support
muscle t.rsif
expressiongonaaarn
p
mono
gg
w tnm
Ep.animaifats
it mfff ff
piantagist.at twisted.gov.sacoiled
poly
Aminoacidycarboxyl aminogroup differinpropertyduetotheremains AAlinkedpeptidebond
group car
Iffron
Nucleic acids
NucleicAcids polynucleotides
polymers off L wophosphate
It p gfpntose sugar
nucleoside

esdirectionforow

III Is synthesis
ofmRNA throughmrna
proteinsynthesisiscontrolled

cells have water thusthe Water most abundant 65 weightin
cellular shape body
Water Polar
398899 1 48
oneend 1 charge
otherend f charge hydrogen 1watermolecule 2hydrogen
partialpositivecharge 1oxygen
hdoavegaf.ee
t ofwatermoleculetoben
thiscauseoneend
dati

ffffy ofadiff d.jo 9k
rge
attractedto the end hydrogen
watermolecule oxygenattractselectronsmore diffwatermolecule
Y ofthewater
than hydrogen more electronegative 1molecule binds
Liquid watermolecules with 4diffwaters
state 1017118fwm makewaterligatroomtemp
highermelting boilingpoint
heatofvaporization
941mg
IEffstaticattraction
enableswatertobondwith
othermoleculescontaining
BonddissociationEnergy energyrequiredtobreakabond
f N Hbondcontains
Pdesketones
molecules
 waterhating

Eff ater
An P a phobicregions
Water is a polarsolvent easilydissolvesmost biomolecules
dissolves Nacl byhydrating stablizing Natactions also dissolvescharged biomolecules

Amphiatic mixedwithwater
thepolarphilicregiondissolves
Smembrane theplarphobicregiondoesn't
bio clusterstogether

ffgatner
watevpf.FI
p
together
Osmosis outside fifth
passage ofwaterfromregion typoton watermove in ceepands
higherconcen Lowerconcentration
of isotonic dsa en movement
Osmoticlysis inwardmovementofwaterthat
causeit toexpand brust
iii's
Hypertonic

Adhesion and cohesion
attraction toothersurfacessubstances waterattracted to water

Chemical bonding and electron valences
attractionb w 2molecules jointogether electron onatoms are at diffenergylevel
Jionic strongestofallbonds transfer of level valenceelectrons morestable
highestenergy
reactive
less
electronsfromamolecule another
ION atomwhichloses t orgain
electrons Solution
2 covalent homogenous mix of 2 ormoresubstances
onlybond n bones Solute substancedissolved solvent dissolv
Double triple concentration amount solute in asolvent
figests.geffgffnan of
Typesofsolution
bond
3 hydrogen weakest ionic 1 Aq solvent water 2 NonAg Solvent otherthanwater
attraction partial t molecule to a 3 Unsaturated more solute candissolveat a giventemp
of
partialC molecule a saturated containmaxamountofsolutethatcandissolve
5Supersaturated moresolutethen satursolution crystalcreation
6 Diluted Solvent move Soluteless 7 concentrated Solvent Less solute more

Factors affecting the dissolving process
1 howmuchsolute is dissolved typeofsolventsolute polarsolvent polardionicsolutes
Temp Solid Temp solubility gases Temptsolubility nonpolar11 Nonpolar covalentsolutes
Pregyes P solubility PL51 iKET
moregasescapes

2 Rateofsolubility temp iÉÉÑÉipIÉ Area ratedparticlesized stirring
surface rate
Separating mixture
Byphysical means

1 Filtration separatepuresubstance whereparticle islargeenough tonot passthrough
filterpaper fliterpaper solute beaker solvent
i

2 Distillation
2liquid Asolid liq with diff boilingpointseparated the subwith lower
bpevaporates reachestop condenses leavesbehindtheothersubstance
difference in speeds attraction to chromatogram substance move at
1 1,9 9japhy
moles
m farmass Effme
Law of thermodynamic
LivingorganismsExistin a dynamicsteadystate neveratequilibrium flow energy
continous
of
of if
constancy concentration s omethingissynthesized itis
alsotaken

System born
it fff If
everything in adefined
space fromsunlight
opentmff.isemnejy
isolated 2closedenergyexchanged 3
no orenergyisexchanged matter
matter eschang

Thermodynamic
studyofrelationbinneatworktempenergy heatenergyis intootherformsofenergynowmatteriseffected
1zeroethlaw 2 withthird
sys sysinthermalequiwitheachother
2firstlaw energynotcreatednordestroyed changesitsforms
3 2Law Entropy ofuniverse isolatedalwaysincreases
4 3law AperfectsolidatabsolutezerohasEntropyofabsolutezero Entropyofsys constant if tempabsolutezero

Entropy measureofthedisorderof asystem ΔS change s

whenever asolidsubstance is liquid thefreedomofmovement
increase thusentropyincreases

Enthalpy
measure
ofenergy heatcontentofasystemat aconstant pressure

Gibes free energy G
quantityusedtomeasurethemaxamountof donein athermodynamic
work
systemwhentemp pressure areconstant
Energyavailabletopreformwork
ΔG ΔH TAS Peg 38in
fjaneou
O G
Atequilibruim
ifproducts
pflowerthanreactant

ifproduct a higherthan reactant
nonspon