In case of `C_4` pathway, in the first step is

In taxonomy the first step is:

In taxonomy the first step is:

EMP pathway occurs in the

Assertion: Photosynthetically C_(4) plants are less efficient than C_(3) plants. Reason: The operation of C_(4) pathway requires the involvement of only bundle-sheath cells.

In the reaction of hydrogen bromide with an alkene (in the absence of peroxides), the first step of the reaction is the ............. to the alkene.

Explain the events of C4 pathway. Mention any two special features of C4 plants.

Draw an energy profile diagram for a three step-reaction in which first step is slowest and last step is fastest. (Assume that reaction is exothermic)

Di-tert-glycols rearrange in the presence of acid to give alpa -tertiary ketones. The trivial name of the simplest glycol of this type is pinacol, and this type of reaction therefore is named pinacol rearrangement (in this specific case, the reaction is called a pinacol-pinacolone rearrangement). The rearrangement involves 4 steps. one of the hydroxyl groups is protonated in the first step. A molecule of water is eliminated in the second step and a tertiary carbocation is formed. The carbocation rearranges in the third step into a more stable carboxonium ion via a [1,2] rearrangement. In the last step, the carboxonium ion is deprotonated and the product ketone is obtained. How many products obtained in above reaction?

Di-tert-glycols rearrange in the presence of acid to give alpa -tertiary ketones. The trivial name of the simplest glycol of this type is pinacol, and this type of reaction therefore is named pinacol rearrangement (in this specific case, the reaction is called a pinacol-pinacolone rearrangement). The rearrangement involves 4 steps. one of the hydroxyl groups is protonated in the first step. A molecule of water is eliminated in the second step and a tertiary carbocation is formed. The carbocation rearranges in the third step into a more stable carboxonium ion via a [1,2] rearrangement. In the last step, the carboxonium ion is deprotonated and the product ketone is obtained.