intro of glycolysis there cycle and step - function-significance-defination-glucogenesis cycle-significance of gluconeogenesis-function of gluconeogenesis-conclusion
Pentose phosphate pathway is also called Hexose monophosphate pathway/ HMP shunt/ Phosphogluconate pathway.
It is an alternative route for the metabolism of glucose.
It is more complex pathway than glycolysis.
It is more anabolic in nature.
It takesplace in cytosol.
The tissues such as liver, adipose tissue, adrenal gland, erythrocytes,testes and lactating mammary gland are highly active in HMP shunt.
It concern with the biosynthesis of NADPH and pentoses.
Pentose phosphate pathway is also called Hexose monophosphate pathway/ HMP shunt/ Phosphogluconate pathway.
It is an alternative route for the metabolism of glucose.
It is more complex pathway than glycolysis.
It is more anabolic in nature.
It takesplace in cytosol.
The tissues such as liver, adipose tissue, adrenal gland, erythrocytes,testes and lactating mammary gland are highly active in HMP shunt.
It concern with the biosynthesis of NADPH and pentoses.
This powerpoint gives detailed description and clear view about Glycogenesis and glycogenolysis . these two metabolic actions are very important for regulating blood glucose levels. it also explains about the glycogen storage
For More Medicine Free PPT - http://playnever.blogspot.com/
For Health benefits and medicine videos Subscribe youtube channel - https://www.youtube.com/playlist?list=PLKg-H-sMh9G01zEg4YpndngXODW2bq92w
Glycolysis (from glycose, an older term for glucose + -lysis degradation) is the metabolic pathway that converts glucose C6H12O6, into pyruvate, CH3COCOO− + H+. The free energy released in this process is used to form the high-energy molecules ATP (adenosine triphosphate) and NADH (reduced nicotinamide adenine ...
Glycogenolysis, process by which glycogen, the primary carbohydrate stored in the liver and muscle cells of animals, is broken down into glucose to provide immediate energy and to maintain blood glucose levels during fasting. These slides will provide you detail explanation of Glycogenolysis.
Gluconeogenesis: Defined as biosynthesis of glucose from non-carbohydrate precursors
-Gluconeogenesis: an intro
-Thermodynamic Barriers (Each barrier detail explanation)
- Energetics of gluconeogenesis
-Substrates of gluconeogenesis (each substrate and pathway explained)
-Regulation of Gluconeogenesis, hormonal and transcriptional regulation
Here you will get about glycolysis its regulation and energetics.Further updates like and follow my slideshare account
Click on below link to get presentation on Properties of cancer cell.
https://www.slideshare.net/PratikshaPuranik5/properties-of-cancer-cells
To understand how the glycolytic pathway is converts glucose to pyruvate.
To understand conservation of chemical potential energy in the form of ATP and NADH.
To learn the intermediates, enzyme, and cofactors of the glycolytic pathway.
This powerpoint gives detailed description and clear view about Glycogenesis and glycogenolysis . these two metabolic actions are very important for regulating blood glucose levels. it also explains about the glycogen storage
For More Medicine Free PPT - http://playnever.blogspot.com/
For Health benefits and medicine videos Subscribe youtube channel - https://www.youtube.com/playlist?list=PLKg-H-sMh9G01zEg4YpndngXODW2bq92w
Glycolysis (from glycose, an older term for glucose + -lysis degradation) is the metabolic pathway that converts glucose C6H12O6, into pyruvate, CH3COCOO− + H+. The free energy released in this process is used to form the high-energy molecules ATP (adenosine triphosphate) and NADH (reduced nicotinamide adenine ...
Glycogenolysis, process by which glycogen, the primary carbohydrate stored in the liver and muscle cells of animals, is broken down into glucose to provide immediate energy and to maintain blood glucose levels during fasting. These slides will provide you detail explanation of Glycogenolysis.
Gluconeogenesis: Defined as biosynthesis of glucose from non-carbohydrate precursors
-Gluconeogenesis: an intro
-Thermodynamic Barriers (Each barrier detail explanation)
- Energetics of gluconeogenesis
-Substrates of gluconeogenesis (each substrate and pathway explained)
-Regulation of Gluconeogenesis, hormonal and transcriptional regulation
Here you will get about glycolysis its regulation and energetics.Further updates like and follow my slideshare account
Click on below link to get presentation on Properties of cancer cell.
https://www.slideshare.net/PratikshaPuranik5/properties-of-cancer-cells
To understand how the glycolytic pathway is converts glucose to pyruvate.
To understand conservation of chemical potential energy in the form of ATP and NADH.
To learn the intermediates, enzyme, and cofactors of the glycolytic pathway.
Carbohydrates are the sugars, starches and fibers found in fruits, grains, vegetables and milk products. Though often maligned in trendy diets, carbohydrates — one of the basic food groups — are important to a healthy diet.
Glycolysis (from glycose, an older term for glucose + -lysis degradation) is the metabolic pathway that converts glucose C6H12O6, into pyruvate, CH3COCOO− + H+.
Supplying a huge array of metabolic intermediates for biosynthetic reactions. Normally carbohydrate metabolism supplies more than half of the energy requirements of the body. In fact the brain largely depends upon carbohydrate
Carbohydrate metabolism comprises glycolysis, HMP shunt, Gluconeogenesis, Glycogenolysis, TCA cycle, with Glucose-6-phosphate dehydrogenase deficiency disorder.
How to Make a Field invisible in Odoo 17Celine George
It is possible to hide or invisible some fields in odoo. Commonly using “invisible” attribute in the field definition to invisible the fields. This slide will show how to make a field invisible in odoo 17.
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A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
2. Contents
• Introduction of glycolysis
• Glycolysis cycle
• Steps of glycolysis
• Function of glycolysis
• Significance of glycolysis
• Defination of gluconeogenesis
• Gluconeogenesis cycle
• Significance of gluconeogenesis
• Function of gluconeogenesis
• conclusion
3. Introduction of Glycolysis
• Glycolysis (from the Greek glykys, meaning sweet,
and lysis , meaning splitting ) also known as Embden –
Meyerhof pathway(EMP).
• This is an oxidative process in which one mole of
glucose is partially oxidized into the two moles of
pyruvate in a series of enzyme –catalyzed reaction.
• Glycolysis, the major pathway for glucose
metabolism,occurs in the cytosol of all cells.
• It is unique pathway occurs aerobically as well as
anaerobically and does not involve molecular oxygen.
4. • The glycolytic sequence of reactions differ
from species to species only in the
mechanisms of its regulation and in the
subsequent metabolic fate of the pyruvate
formed.
• In aerobic organisms, glycolysis is the prelude
to Citric acid cycle and ETC.
• It is a unique pathway occurs aerobically as
well as anaerobically and does not involve
molecular oxygen.
5.
6. Steps of Glycolysis
• Steps – 1:- (phosphorylation)
Here, the glucose ring is phosphorylated. Phosphorylation is the
process of adding a phosphate group to a molecule derived from
ATP.
As a result, at this point in glycolysis, 1 molecule of ATP has been
consumed.
.The reaction occurs with the help of the enzyme hexokinase , an
enzyme that catalyzes the phosphorylation of many six- membered
glucose- like ring structure.
The result of this phosphorylation is a molecule called Glucose – 6-
phosphate (G6P) , thusly called because the 6 carbon of the glucose
acquires the phosphate group.
7. Step- 2 (Isomerization)
• The second reaction of glycolysis is the rerrangement
of Glucose - 6- phosphate (G6P) into fructose 6-
phosphate (F6P) by glucose phosphste isomerase
(phosphoglucose isomerase).
Step-3 : - (phosphorylation)
• Phosphofructokinase, with magnesium as a cofactor ,
changes fructose 6- phosphate into fructose 1,6-
biphosphate.
8. Step -4 (Aldolase)
• The enzyme Aldolase splits fructose 1,6 bisphosphate into two
sugars that are isomers of each other.
These two sugars are dihydroxyacetone phosphate (DHAP) and
Glyceraldehyde 3- phosphate (GAP), only the glyceraldehyde 3-
phosphate can proceed immediately through glycolysis.
Step – 5 : (Isomerization)
Dihydroxyacetone phosphate is isomerized to form
glyceraldehyde 3 phosphate.
The isomerization of these three- carbon phosphorylated sugars is
catalyzed by triose phosphate isomerase.
9. Step-6
The two molecules of glyceraldehyde 3- phosphate are oxidized.
Enzyme glyceraldehyde 3- phosphate dehydrogenase catalyzes the
conversion of glyceraldehyde 3- phosphate into 1,3-
bisphosphoglycerate (1,3- BPG).
Step: - 7
The transfer of the high- energy phosphate group that was
generated in step 6 to ADP form ATP.
The formation of ATP is referred to as substrate- level
phosphorylation because the phosphate donor , 1,3 BPG, is a
substrate with high phosphoryl- transfer potential.
10. Step:-8
The remaining phosphate ester linkage in 3-
phosphoglycerate, which has a relatively low free energy
of hydrolysis, is moved from carbon 3 to carbon 2 to form
2- phosphoglycerate.
Step:- 9
The removal of water from 2-phosphoglycerate creates a
high – energy enol phosphate linkage .
Enzyme catalyzing this step , enolase , is inhibited by
fluoride.
11. Step:- 10
The transfer of the high- energy phosphate group that
was generated in step 9 to ADP forms ATP.
This last step in glycolysis is the irreversible transfer of
the phosphoryl group from phosphoenolpyruvate to
ADP is catalyzed by pyruvate kinase.
Pyruvate kinase requires either k+ or Mg 2+.
Net reaction :
Glucose + 2NAD + 2ADP + 2H₂PO₄
2Pyruvate + 2NADH + 2ATP +2H₂O
12. • Function :
• Function of glycolysis is to break down
glucose to form NADH and ATP as source of
energy to cells.
• As a part of aerobic respiration pyruvate is
made available for the citric acid cycle.
• The process results in intermediate
compounds, which may be used at various
steps for other cellular purposes.
13. Significance of glycolysis
• Glycolysis is present in nearly all living
organisms.Glucose is the source of almost all
energy used by cells.
• Glycolysis is an almost universal central pathway
of glucose catabolism occuring in the cytoplasm
of all the tissues of biological systems leading to
generation of energy in the form of ATP of vital
activities.
• It is the pathway through which the largest flux
of carbon occurs in most cells.
14. • Some plant tissues which are modified for
the storage of starch such as potato tubers
and some plants adapted to growth in
inundated water such as water cress derive
most of their energy from glycolysis.
• Many types of anaerobic microorganisms are
entirely dependent on glycolysis.
• Mammalian tissues such as renal medulla
and brain solely dependent on glycolysis for
major sources of metabolic energy.
15. Gluconeogenesis
• Defination :
• Gluconeogenesis is the synthesis of glucose from non-
carbohydrate precursors.
• Gluconeogenesis is a universal pathway,found in all
organism in all animals , plants , fungi, and
microorganism.
• Precursors of gluconeogenesis:
• Lactate, pyruvate, glycerol, some amino acid (termed
glucogenic acids).
16.
17. Gluconeogenesis cycle
• Gluconeogenesis is begins in the mitochondria with
the formation of oxaloacetate by the carboxylation of
pyruvate . This reaction also requires 1 molecule of
ATP , and is catalyzed by pyruvate carboxylase.
• This enzyme is stimulated by high levels of acetyl CoA
and inhibited by high levels of ADP and glucose.
• Oxaloacetate is reduced to malate using NADH , a
step required for its transportation out of the
mitochondria.
• Malate is oxidized to oxaloacetate using NAD+ in the
cytosol, where the remaining steps of
gluconeogenesis.
18. • Oxaloacetate is decarboxylated and then
phosphorylated to form phosphoenolpyruvate
using the enzyme PEPCK. A molecule of GTP is
hydrolyzed to GDP during this reaction.
• The next steps in the reaction are the same as
reversed glycolysis. However , fructose 1,6 –
bisphosphate converts fructose -6- phosphate ,
using 1 water molecule and releasing 1
phosphate (in glycolysis, phosphofructokinase 1
converts F6P and ATP to F1,6BP and ADP.
• Glucose 6 –phosphate is formed from fructose –
6 – phosphate by phosphoglucoisomerase.
19. • The final reaction of gluconeogenesis , the formation of
glucose , occurs in the lumen of the endoplasmic
reticulum , where glucose – 6- phosphate is hydrolyzed by
glucose – 6 –phosphatase to produce glucose and release
an inorganic phosphate.
• Like two steps prior, this step is not a simple reversal of
glycolysis,in which hexokinase catalyzed the conversion
of glucose and ATP into G6P and ADP.
• Glucose is shuttled into the cytoplasm by glucose
transporters located in the endoplasmic reticulm’ s
membrane.
• Net reaction :
• 2 pyruvate + 2 NADH + 4 ATP + 2 GTP + 6H₂O → Glucose +
2NAD+ + 2GDP + 4 ADP
20. Function :
• It maintain the level of intermediate of the TCA
cycle even when fatty acids are the main source
of acetyle coA in the tissues.
• In higher animals, gluconeogenesis happens in
liver and renal cortex
• It is essentially glycolysis, which is the process of
converting glucose into energy, in reverse.
21. Significance of gluconeogenesis
• Removal of lactic acid.
• Removal of glycerol producted by lipolysis.
• To maintain the amount of glucose.
• It maintains the level of intermediates of the
TCA cycle even when fatty acids are the main
sources of acetyl coA in the tissues.
22. Conclusion
• Glycolysis and gluconeogenesis are two
processes involved in the glucose metabolism.
• Glucose is the energy source of almost all the
life forms on earth.
• Glucose is broken down in order to generate
energy in the form of ATP during the process
called cellular respiration.
• Glycolysis is the first step of cellular respiration,
breaking down 6 carbon glucose into 2 pyruvate
molecules each bearing 3 carbon atoms.
23. • Glycolysis occurs in the cytoplasm of almost
cells. Gluconeogenesis occurs in the
mitochondria and cytoplasm.
• Glycolysis is an exergonic reaction where two
ATPs are produced. Gluconeogenesis is an
endergonic reaction where 6 ATPs are utilized
per 1 glucose molecule.
• The raw material of glycolysis is glucose. The
raw material of gluconeogenesis is lactate,
amino acids like alanine and glycerol.
24.
25. Refernces :
Text book of plant physiology – V. Verma
Biological sciences – Pranav kumar
https:// wikipedia.com
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