Written by students who passed Immediately available after payment Read online or as PDF Wrong document? Swap it for free 4.6 TrustPilot
logo-home
Exam (elaborations)

ACS BIOCHEMISTRY EXAM LATES UPDATED VERSION WITH CORRECT QUESTIONS AND ANSWERS GRADED A+

Rating
-
Sold
-
Pages
34
Grade
A+
Uploaded on
09-03-2026
Written in
2025/2026

ACS BIOCHEMISTRY EXAM LATES UPDATED VERSION WITH CORRECT QUESTIONS AND ANSWERS GRADED A+ Ketone bodies - Answer️Consists of Acetoacetate, Acetone, and D-ß-hydroxybutryate. Formation begins from condensation of 2 acetyl-CoA -- Acetoacetyl-CoA (+ CoA) D-ß-hydroxybutryate can be broken into 2 acetyl-CoA and used as fuel. Zymogen - Answer️An inactive precursor of an enzyme, activated by various methods (acid hydrolysis, cleavage by another enzyme, etc.) PLP Structure - Answer️ Aminotransferase - Answer️Uses a PLP group to transfer amino group from an amino acid to α-ketoglutarate to form L-glutamate and an α-ketoglutarate. Ammonia (NH4+) Transportation - Answer️L-glutamate is converted to L-glutamine via glutamine synthetase. ATP + NH4+ -- ADP + Pi L-glutamine can be converted back to L-glutamate in the liver. Glucose-Alanine Cycle - Answer️Pyruvate can be converted into Alanine via alanine aminotransferase (PLP). Adds a NH4+ group from glutamate to pyruvate. Alanine can travel to the liver and be reconverted back into pyruvate needed for gluconeogenesis. Production of carbamoyl-phosphate - Answer️NH4+ -- Carbamoyl Phosphate Produced by carbamoyl phosphate synthetase I 2 ATP + HCO3 -- 2ADP + Pi Step 1 of the Urea Cycle - Answer️Ornithine (+ carbamoyl phosphate) -- citrulline Uses ornithine transcarbamoylase enzyme Only step to occur in the mitochondria Step 2 of the Urea Cycle - Answer️Citrulline -- Arginosuccinate Uses arginosuccinate synthetase 1) ATP -- ADP 2) Aspartate -- AMP Step 3 of the Urea Cycle - Answer️Arginosuccinate -- Argininine Uses arginosuccinase Produces fumarate byproduct Step 4 of the Urea Cycle - Answer️Arginine -- Ornithine Uses arginase enzyme H2O -- Urea N-acetylglutamate - Answer️Upregulates the production of carbamoyl phosphate and the urea cycle. Formed from acetyl-CoA and glutamate. PCR (Protein Chain Reaction) - Answer️Process by which DNA is replicated. Has melting step, annealing step, replication step. pKa of Arginine R-group - Answer️12.5 pKa of Aspartate R-group - Answer️3.9 pKa of Cysteine R-group - Answer️8 pKa of Glutamate R-group - Answer️4 pKa of Histidine R-group - Answer️6.1 pKa of Lysine R-group - Answer️10.5 pKa of Tyrosne R-group - Answer️10 FAD Structure - Answer️ Q (Ubiquinone/Coenzyme Q) Structure - Answer️ Q (Ubiquinone/Coenzyme Q) Function - Answer️Lipid soluble electron carrier. Carries 2 electrons with 2 H+. ETC (Electron Transport Chain) - Answer️Consists of 4 functional protein complexes. Complex I in the ETC - Answer️Accepts two electrons from NADH via an FMN cofactor. Transfers 4H+ to Pside and 2H+ to Q Complex II in the ETC - Answer️Succinate dehydrogenase. Accepts two electrons electrons from succinate via an FAD group. Q -- QH2 Complex III in the ETC - Answer️Transfers two electrons from QH2 to cytochrome c via the Q-cycle. Transfers 4H+ to Pside. Complex IV in the ETC - Answer️Transfers electrons from cytochrome c to O2. Four electrons are used to reduce on O2 into two H2O molecules. Transfers 4H+ to Pside Mitochondrial ATP Synthase - Answer️Consists of F1 and F0 domains F1 Domain of Mitochondrial ATP Synthase - Answer️Hexamer of 3 αß dimers. Catalyze ADP + Pi -- ATP via binding-change model F0 Domain of Mitochondrial ATP Synthase - Answer️Causes rotation of γ-subunit via a half channel and H+ gradient Malate-Aspartate Shuttle - Answer️Used to maintain gradient of NADH inside of the mitochondria. Involves transport of malate or aspartate; aspartate aminotransferase; and malate dehydrogenase. RuBisCo (Ribulose 1,5-bisphosphate carboxylase/oxygenase) - Answer️Incorporates CO2 into ribulose 1,5-bisphosphate and cleaves the 6C intermediate into 2 3-phosphoglycerate. Stage 1 of the Calvin Cycle - Answer️3 ribulose 1-5-bisphosphate + 3 CO2 -- 6 3-phosphoglycerate. Catalyzed by rubisco Mg2+ in Rubisco - Answer️Stabilizes negative charge in intermediate and held by Glu, Asp, and carbamoylated Lysine residue Rubisco Activase - Answer️Triggers removal of ribulose 1,5-bisphosphate or 2-carboxyaarabinitol 1-phosphate so Lys can be carbamoylated. 2-carboxyarabinitol 1-phosphate - Answer️inhibits carbamoylated rubisco. Synthesized in the dark and is broken down by rubisco activase or light. Stage 2 of the Calvin Cycle - Answer️3-phosphoglycerate -- glyceraldehyde 3-phosphate Requires ATP and NADPH Goes through 1,3-bisphosphoglycerate intermediate Stage 3 of the Calvin Cycle - Answer️Glyceraldehyde 3-phosphate -- Ribulose 1,5-bisphosphate Requires 3 ATP and uses transketolase (TPP). Only uses 8 of the 9 G3P's produced. One G3P is used to make starch/sucrose. Energy Consumption of the Calvin Cycle - Answer️9 ATP molecules and 6 NADPH molecules for every 3 CO2 molecules that are fixated. Pi-Triose Phosphate Anti-porter - Answer️Maintains Pi balance in cytosol/chloroplast due to G3P export to the cytosol. Also exports ATP and NADH to the cytosol. Oxygenase Activity in Rubisco - Answer️O2 competes with CO2 and reacts to form 2-phosphoglycerate Glycolate Cycle - Answer️Process of converting 2-phosphoglycerate to 3-phosphoglycerate in chloroplast, peroxisome, and mitochondria. C4 Plants - Answer️Fix CO2 into PEP to form oxaloacetate (via PEP carboxykinase) that is then converted to malate that carries CO2 to rubisco. Bypasses O2 binding. CAM plants - Answer️Fix CO2 into PEP to form oxaloacetate (via PEP carboxykinase) that is converted to malate at night and stored until the day time. Malonyl-CoA - Answer️Formed from Acetyl-CoA and HCO3 via the Acetyl-CoA carboxylase (ACC). Serves as a regulator of FA catabolism and precursor in FA synthesis. ACC (acetyl-CoA carboxylase) Regulation - Answer️Inhibited by PKA in glucagon chain and activated by pjhosphatase in INSR chain. FAS (Fatty-acid Synthetase) - Answer️Catalyzes condensation, reduction, dehydration, and reduction of growing fatty acid chain. Requires activation by acetyl-CoA or malonyl-CoA Additional Cost of FAS in Eukaryotes - Answer️Acetyl-CoA for lipid synthesis is made in mitochondria and must be transferred into the cytosol via citrate transporter. Costs 2 ATP. Cost of FAS in Eukaryotes - Answer️3 ATP's per 2 carbon unit added. Phosphatidic Acid - Answer️Common precursor to TAGs and phospholipids. Consists of a glycerol 3-phosphate with two acyl groups that are attached via acyl transferases. TAGs (Triacylglycerols) - Answer️Made from phosphatidic acid by removing phosphate with phosphatase and adding an acyl group with acyl transferase. Cholesterol Synthesis - Answer️Synthesized from 15 acetyl-CoA through a number of intermediates. HMG-CoA Reductase - Answer️Enzyme that converts ß-hydroxy-ß-methyl glutaryl-CoA to mevalonate in cholesterol metabolism. Regulation of HMG-CoA Reductase - Answer️Inhibited by AMPK (AMP dependent kinase), glucagon, and oxysterol. Activated by insulin. Ribonucleotide Reductase - Answer️Contains two types of allosteric regulatory sites for activity and specificity. Converts ribonucleotides to deoxyribonucleotides. Nitrogenase Complex - Answer️Uses ATP hydrolysis and ATP binding to overcome activation energy. Has a FeMo cofactor. Is an α2ß2 homodimer. Fixes N2 into NH4+ Anaerobic Ammonia Oxidation (Anammox) - Answer️Ability of some bacteria to oxidize NH4+ and NO2- into N2. "Short-circuits" the nitrogen cycle. Glutamine Synthetase Regulation in Nitrogen Metabolism - Answer️Catalyzes conversion of glutamate to glutamine. Inhibited by Gly, Ala, and endpoints of glutamine metabolism. Additive effectors.

Show more Read less
Institution
ACS BIOCHEMISTRY
Course
ACS BIOCHEMISTRY

Content preview

ACS BIOCHEMISTRY EXAM LATES UPDATED
VERSION WITH CORRECT QUESTIONS AND
ANSWERS GRADED A+

Ketone bodies - Answer Consists of Acetoacetate, Acetone, and D-ß-
hydroxybutryate.
Formation begins from condensation of 2 acetyl-CoA --> Acetoacetyl-CoA (+
CoA)


D-ß-hydroxybutryate can be broken into 2 acetyl-CoA and used as fuel.


Zymogen - Answer An inactive precursor of an enzyme, activated by various
methods (acid hydrolysis, cleavage by another enzyme, etc.)


PLP Structure - Answer



Aminotransferase - Answer Uses a PLP group to transfer amino group from an
amino acid to α-ketoglutarate to form L-glutamate and an α-ketoglutarate.


Ammonia (NH4+) Transportation - Answer L-glutamate is converted to L-
glutamine via glutamine synthetase.
ATP + NH4+ --> ADP + Pi


L-glutamine can be converted back to L-glutamate in the liver.

,Glucose-Alanine Cycle - Answer Pyruvate can be converted into Alanine via
alanine aminotransferase (PLP). Adds a NH4+ group from glutamate to pyruvate.
Alanine can travel to the liver and be reconverted back into pyruvate needed for
gluconeogenesis.


Production of carbamoyl-phosphate - Answer NH4+ --> Carbamoyl Phosphate
Produced by carbamoyl phosphate synthetase I
2 ATP + HCO3 --> 2ADP + Pi


Step 1 of the Urea Cycle - Answer Ornithine (+ carbamoyl phosphate) -->
citrulline
Uses ornithine transcarbamoylase enzyme
Only step to occur in the mitochondria


Step 2 of the Urea Cycle - Answer Citrulline --> Arginosuccinate
Uses arginosuccinate synthetase
1) ATP --> ADP
2) Aspartate --> AMP


Step 3 of the Urea Cycle - Answer Arginosuccinate --> Argininine
Uses arginosuccinase
Produces fumarate byproduct


Step 4 of the Urea Cycle - Answer Arginine --> Ornithine

,Uses arginase enzyme
H2O --> Urea


N-acetylglutamate - Answer Upregulates the production of carbamoyl phosphate
and the urea cycle. Formed from acetyl-CoA and glutamate.


PCR (Protein Chain Reaction) - Answer Process by which DNA is replicated.
Has melting step, annealing step, replication step.


pKa of Arginine R-group - Answer 12.5



pKa of Aspartate R-group - Answer 3.9



pKa of Cysteine R-group - Answer 8



pKa of Glutamate R-group - Answer 4



pKa of Histidine R-group - Answer 6.1



pKa of Lysine R-group - Answer 10.5



pKa of Tyrosne R-group - Answer 10


FAD Structure - Answer

, Q (Ubiquinone/Coenzyme Q) Structure - Answer



Q (Ubiquinone/Coenzyme Q) Function - Answer Lipid soluble electron carrier.
Carries 2 electrons with 2 H+.


ETC (Electron Transport Chain) - Answer Consists of 4 functional protein
complexes.


Complex I in the ETC - Answer Accepts two electrons from NADH via an FMN
cofactor. Transfers 4H+ to Pside and 2H+ to Q


Complex II in the ETC - Answer Succinate dehydrogenase. Accepts two
electrons electrons from succinate via an FAD group. Q --> QH2


Complex III in the ETC - Answer Transfers two electrons from QH2 to
cytochrome c via the Q-cycle. Transfers 4H+ to Pside.


Complex IV in the ETC - Answer Transfers electrons from cytochrome c to O2.
Four electrons are used to reduce on O2 into two H2O molecules. Transfers 4H+ to
Pside


Mitochondrial ATP Synthase - Answer Consists of F1 and F0 domains



F1 Domain of Mitochondrial ATP Synthase - Answer Hexamer of 3 αß dimers.
Catalyze ADP + Pi --> ATP via binding-change model

Written for

Institution
ACS BIOCHEMISTRY
Course
ACS BIOCHEMISTRY

Document information

Uploaded on
March 9, 2026
Number of pages
34
Written in
2025/2026
Type
Exam (elaborations)
Contains
Questions & answers
$16.49
Get access to the full document:

Wrong document? Swap it for free Within 14 days of purchase and before downloading, you can choose a different document. You can simply spend the amount again.
Written by students who passed
Immediately available after payment
Read online or as PDF

Get to know the seller
Seller avatar
TutorEric

Get to know the seller

Seller avatar
TutorEric Teachme2-tutor
View profile
Follow You need to be logged in order to follow users or courses
Sold
1
Member since
1 year
Number of followers
0
Documents
107
Last sold
10 months ago
ACADEMIC HUB

As a professional tutor, I provide high-quality academic support in Nursing, Psychology, Business, Sciences, and Mathematics. We provide scholarly assignments, research support, revision materials, and exam preparation, helping students achieve excellent grades through accurate, timely, and standards-based academic assistance.

0.0

0 reviews

5
0
4
0
3
0
2
0
1
0

Why students choose Stuvia

Created by fellow students, verified by reviews

Quality you can trust: written by students who passed their tests and reviewed by others who've used these notes.

Didn't get what you expected? Choose another document

No worries! You can instantly pick a different document that better fits what you're looking for.

Pay as you like, start learning right away

No subscription, no commitments. Pay the way you're used to via credit card and download your PDF document instantly.

Student with book image

“Bought, downloaded, and aced it. It really can be that simple.”

Alisha Student

Working on your references?

Create accurate citations in APA, MLA and Harvard with our free citation generator.

Working on your references?

Frequently asked questions