FileTitleManuscript Id
Chapter Introductionlife11e_ch08_1.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_1_dlap.xml5774100a757a2e760f000000
key concept8.1Physical Principles Underlie Biological Energy Transformations life11e_ch08_2.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_2_dlap.xml5774100a757a2e760f000000
There are two basic types of energy life11e_ch08_3.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_3_dlap.xml5774100a757a2e760f000000
There are two basic types of metabolism life11e_ch08_4.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_4_dlap.xml5774100a757a2e760f000000
The first law of thermodynamics: Energy is neither created nor destroyed life11e_ch08_5.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_5_dlap.xml5774100a757a2e760f000000
The second law of thermodynamics: Disorder tends to increase life11e_ch08_6.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_6_dlap.xml5774100a757a2e760f000000
Chemical reactions release or consume energy life11e_ch08_7.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_7_dlap.xml5774100a757a2e760f000000
Chemical equilibrium and free energy are related life11e_ch08_8.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_8_dlap.xml5774100a757a2e760f000000
recaplife11e_ch08_9.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_9_dlap.xml5774100a757a2e760f000000
key concept8.2ATP Plays a Key Role in Biochemical Energetics life11e_ch08_10.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_10_dlap.xml5774100a757a2e760f000000
ATP hydrolysis releases energy life11e_ch08_11.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_11_dlap.xml5774100a757a2e760f000000
ATP couples exergonic and endergonic reactions life11e_ch08_12.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_12_dlap.xml5774100a757a2e760f000000
recaplife11e_ch08_13.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_13_dlap.xml5774100a757a2e760f000000
key concept8.3Enzymes Speed Up Biochemical Transformations life11e_ch08_14.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_14_dlap.xml5774100a757a2e760f000000
To speed up a reaction, an energy barrier must be overcome life11e_ch08_15.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_15_dlap.xml5774100a757a2e760f000000
Enzymes bind specific reactants at their active sites life11e_ch08_16.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_16_dlap.xml5774100a757a2e760f000000
Enzymes lower the energy barrier but do not affect equilibrium life11e_ch08_17.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_17_dlap.xml5774100a757a2e760f000000
recaplife11e_ch08_18.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_18_dlap.xml5774100a757a2e760f000000
key concept8.4Enzymes Bring Substrates Together so Reactions Readily Occur life11e_ch08_19.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_19_dlap.xml5774100a757a2e760f000000
Enzymes can orient substrates life11e_ch08_20.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_20_dlap.xml5774100a757a2e760f000000
Enzymes can induce strain in the substrate life11e_ch08_21.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_21_dlap.xml5774100a757a2e760f000000
Enzymes can temporarily add chemical groups to substrates life11e_ch08_22.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_22_dlap.xml5774100a757a2e760f000000
Molecular structure determines enzyme function life11e_ch08_23.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_23_dlap.xml5774100a757a2e760f000000
Not all enzymes are proteins life11e_ch08_24.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_24_dlap.xml5774100a757a2e760f000000
Some enzymes require other molecules in order to function life11e_ch08_25.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_25_dlap.xml5774100a757a2e760f000000
The substrate concentration affects the reaction rate life11e_ch08_26.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_26_dlap.xml5774100a757a2e760f000000
recaplife11e_ch08_27.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_27_dlap.xml5774100a757a2e760f000000
key concept8.5Enzyme Activities Can Be Regulated life11e_ch08_28.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_28_dlap.xml5774100a757a2e760f000000
Enzymes can be regulated by inhibitors life11e_ch08_29.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_29_dlap.xml5774100a757a2e760f000000
Allosteric enzymes are controlled via changes in shape life11e_ch08_30.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_30_dlap.xml5774100a757a2e760f000000
Allosteric effects regulate many metabolic pathways life11e_ch08_31.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_31_dlap.xml5774100a757a2e760f000000
Many enzymes are regulated through reversible phosphorylation life11e_ch08_32.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_32_dlap.xml5774100a757a2e760f000000
Enzymes are affected by their environment life11e_ch08_33.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_33_dlap.xml5774100a757a2e760f000000
recaplife11e_ch08_34.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_34_dlap.xml5774100a757a2e760f000000
Investigating Lifelife11e_ch08_35.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_35_dlap.xml5774100a757a2e760f000000
Chapter Summary life11e_ch08_36.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_36_dlap.xml5774100a757a2e760f000000
Apply What You’ve Learned life11e_ch08_37.html5774100a757a2e760f000000
DLAP questionslife11e_ch08_37_dlap.xml5774100a757a2e760f000000