Class 12 Biology photosynthesis part 2
Department Of Information Technology・2 minutes read
Photosynthesis involves a complex series of reactions resulting in the production of glucose and is divided into light-dependent and light-independent phases. The process includes the Calvin cycle in the stroma of chloroplasts, utilizing ATP and NADPH to convert CO2 into glucose, with Melvin Calvin awarded the Nobel Prize in 1961 for his work on photosynthesis.
Insights
- Photosynthesis involves two main phases: light-dependent reactions and light-independent reactions, with the former occurring in the thylakoid membrane and resulting in the production of ATP and NADPH crucial for glucose synthesis.
- The Calvin cycle, part of the light-independent reactions, converts CO2 into glucose through enzyme-controlled reactions in the stroma of chloroplasts, with the enzyme Rubisco playing a key role in this process and the end product being glucose, the ultimate outcome of photosynthesis.
Get key ideas from YouTube videos. It’s free
Recent questions
What are the two phases of photosynthesis?
Light-dependent and light-independent reactions
What is the role of electron carriers in photosynthesis?
Capture and transfer electrons during the process
What is the Calvin cycle?
Part of the dark reactions converting CO2 into glucose
How does water breakdown contribute to photosynthesis?
Yields oxygen, hydrogen, and electrons for electron transfer
Who discovered the Calvin cycle?
Melvin Calvin
Related videos
CrashCourse
Photosynthesis: Crash Course Biology #8
Mr Exham Biology
Photosynthesis - Light-dependent Stage - Post 16 Biology (A Level, Pre-U, IB, AP Bio)
BioMan Biology
Photosynthesis Intro and Light-Dependent Reactions
The Organic Chemistry Tutor
Photosynthesis - Light Dependent Reactions and the Calvin Cycle
Biology Simplified Tamil
Photosynthesis in higher plants | One shot revision | Target 360 Biology
Summary
00:00
"Photosynthesis: Glucose Synthesis Through Light Reactions"
- Photosynthesis involves the synthesis of glucose through a series of steps using carbon dioxide, water, and chlorophyll.
- The process is divided into two phases: light-dependent reactions and light-independent reactions.
- Light-dependent reactions occur in the chloroplast's thylakoid membrane and involve the primary photochemical reaction.
- Two pigment systems, Photosystem I and Photosystem II, are crucial in capturing light energy and facilitating electron transfer.
- Photosystem I absorbs light with a wavelength greater than 680 nm, while Photosystem II absorbs light with a wavelength less than 600 nm.
- Electrons released during the process are captured by electron carriers like ferredoxin and NADP+.
- The electron transfer chain involves carriers like plastocyanin and cytochrome complex, leading to the final transfer to Photosystem I.
- The process ultimately results in the production of ATP and NADPH, crucial for the synthesis of glucose.
- The excitation of chlorophyll molecules and the movement of electrons between carriers are essential for energy transfer.
- The detailed electron transfer process involves multiple electron carriers and specific wavelengths of light for optimal efficiency.
18:15
"Electron carriers P680 and P700 in photosynthesis"
- Electron carriers named P680 and P700 crucial in photosynthesis
- Electrons released by P680 reach P700 through carriers
- Energy loss occurs as electrons move through carriers
- ATP production involves ADP, inorganic phosphate, and energy
- Light availability crucial for ATP formation through phosphorylation
- Water breakdown in presence of light yields oxygen and hydrogen
- Manganese and chlorine play roles in water breakdown
- Oxygen is evolved during photosynthesis
- NADP and NADPH crucial in electron and hydrogen transfer
- Light reaction leads to ATP and NADPH production
35:53
"Photosynthesis: Noncyclic, Cyclic, Calvin Cycle Processes"
- Photosynthesis involves two main processes: noncyclic and cyclic photophosphorylation.
- Noncyclic photophosphorylation involves the movement of electrons from photosystem II to photosystem I.
- In noncyclic photophosphorylation, electrons are not cycled back to photosystem II.
- Cyclic photophosphorylation occurs when electrons released from photosystem II are not cycled back.
- The Calvin cycle, also known as the C3 cycle, is part of the dark reactions of photosynthesis.
- The Calvin cycle converts carbon dioxide into glucose through a series of enzyme-controlled reactions.
- The site of the dark reactions is the stroma of the chloroplast, where enzymes and molecules are present.
- The dark reactions use ATP and NADPH to convert carbon dioxide into glucose.
- The fluid in the stroma contains enzymes and molecules necessary for the dark reactions.
- Melvin Calvin discovered the Calvin cycle and was awarded the Nobel Prize in 1961 for his work on photosynthesis.
53:25
Photosynthesis: Complex Reactions Yield Glucose
- The process of photosynthesis involves a complex series of reactions that result in the production of glucose.
- The breakdown of the process includes the reader's interest in understanding the overall mechanism of photosynthesis.
- The dark reaction process involves the conversion of CO2 molecules into glucose in the presence of enzymes and ATP.
- The primary sector of the dark reaction involves the acceptance of CO2 by RuBP and the formation of PG molecules.
- The enzyme Rubisco plays a crucial role in the conversion of CO2 into PG molecules.
- The first stable product of the dark reaction is PG, which contains three carbon atoms.
- The regeneration of RuBP is essential for the continuation of the dark reaction process.
- The conversion of PG molecules into glucose involves multiple steps and the use of ATP.
- The end product of photosynthesis is glucose, which is the main outcome of the entire process.
- The overall process of photosynthesis is a detailed and intricate series of reactions that result in the production of glucose as the final product.
01:11:15
Essential phases of photosynthesis and molecule formation.
- The process of photosynthesis involves three main phases: the synthesis of NADPH, the utilization of a kitchen utility called X, and the regeneration of our EVP molecules. This process includes steps like glycolysis, the breakdown of glucose, and the generation of PGL molecules.
- Photosynthesis concludes with the formation of molecules through the reaction of CO2, utilizing assimilative powers and producing essential components like our EVP molecules. This process is crucial for the overall cycle of photosynthesis and the generation of necessary compounds.
