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Скачать с ютуб Photosynthesis 7 | Photorespiration | C2 Cycle | Warburg Effect | Photosynthetic Carbon Oxidation в хорошем качестве

Photosynthesis 7 | Photorespiration | C2 Cycle | Warburg Effect | Photosynthetic Carbon Oxidation 4 года назад


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Photosynthesis 7 | Photorespiration | C2 Cycle | Warburg Effect | Photosynthetic Carbon Oxidation

Join this channel to get access to daily new video lectures :    / @illumebiology   To watch all videos on photosynthesis, click this    • Photosynthesis   #ugcnet #ugcnetexam #illumebiology #neetbiology #neetexam #neetug #neet #neetstudents #neetstudy #neetpreparation #neetpreparationbiology #neetchemistry #neetbiologynotes #neet2023 #neetkota #ncert #ncertbiology #ncertbiologytricks #ncertrecapitulation #ncertbiologyhighlights #ncertneet #ncertsummary #ncertnewsyllabus #ncertbiologylive #neetlive #mbbs #mbbsstudy #mbbsstudent #breathing #respiration #dmlt #msczoology #botany Plants that are adapted to dry tropical regions have the C4 pathway mentioned earlier. Though these plants have the C4 oxaloacetic acid as the first CO2 fixation product they use the C3 pathway or the Calvin cycle as the main biosynthetic pathway. Then, in what way are they different from C3 plants? This is a question that you may reasonably ask. C4 plants are special: They have a special type of leaf anatomy, they tolerate higher temperatures, they show a response to high light intensities, they lack a process called photorespiration and have greater productivity of biomass. Let us understand these one by one. Study vertical sections of leaves, one of a C3 plant and the other of a C4 plant. Do you notice the differences? Do both have the same types of mesophylls? Do they have similar cells around the vascular bundle sheath? The particularly large cells around the vascular bundles of the C4 plants are called bundle sheath cells, and the leaves which have such anatomy are said to have ‘Kranz’ anatomy. ‘Kranz’ means ‘wreath’ and is a reflection of the arrangement of cells. The bundle sheath cells may form several layers around the vascular bundles; they are characterised by having a large number of chloroplasts, thick walls impervious to gaseous exchange and no intercellular spaces. You may like to cut a section of the leaves of C4 plants – maize or sorghum – to observe the Kranz anatomy and the distribution of mesophyll cells. It would be interesting for you to collect leaves of diverse species of plants around you and cut vertical sections of the leaves. Observe under the microscope – look for the bundle sheath around the vascular bundles. The presence of the bundle sheath would help you identify the C4 plants. Now study the pathway shown in . This pathway that has been named the Hatch and Slack Pathway, is again a cyclic process. Let us study the pathway by listing the steps. The primary CO2 acceptor is a 3-carbon molecule phosphoenol pyruvate (PEP) and is present in the mesophyll cells. The enzyme responsible for this fixation is PEP carboxylase or PEPcase. It is important to register that the mesophyll cells lack RuBisCO enzyme. The C4 acid OAA is formed in the mesophyll cells. It then forms other 4-carbon compounds like malic acid or aspartic acid in the mesophyll cells itself, which are transported to the bundle sheath cells. In the bundle sheath cells these C4 acids are broken down to release CO2 and a 3-carbon molecule. The 3-carbon molecule is transported back to the mesophyll where it is converted to PEP again, thus, completing the cycle. The CO2 released in the bundle sheath cells enters the C3 or the Calvin pathway, a pathway common to all plants. The bundle sheath cells are rich in an enzyme Ribulose bisphosphate carboxylase-oxygenase (RuBisCO), but lack PEPcase. Thus, the basic pathway that results in the formation of the sugars, the Calvin pathway, is common to the C3 and C4 plants. Did you note that the Calvin pathway occurs in all the mesophyll cells of the C3 plants? In the C4 plants it does not take place in the mesophyll cells but does so only in the bundle sheath cells. NOTE : All content used is copyright to Illume Biology, Use or commercial display or editing of the content without proper authorization and permission is not allowed.

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