336930
The given diagram represents Hatch and Slack cycle. Identify the different cells and name the structure which connects these cells (A-C) in \({C_4}\) cycle.
1 A - Mesophyll cell, B - Plasmodesmata, C - Bundle sheath cell
2 A - Bundle sheath cell, B - Plasmodesmata, C - Mesophyll cell
3 A - Mesophyll cell , B - Bundle sheath cell , C - Plasmodesmata
4 A - Plasmodesmata, B - Bundle sheath cell, C - Mesophyll cell
Explanation:
A. Mesophyll cell B. Plasmodesmata C. Bundle Sheath cell
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336931
\({C_4}\) plants are more efficient in photosynthesis than in \({C_3}\) plants due to
1 Higher leaf area
2 Presence of larger number of chloroplast in the leaf cells
3 Presence of thin cuticle
4 lower rate of photorespiration
Explanation:
\({C_4}\) plants are more efficient in photosynthesis than \({C_3}\) plants but use more energy. The leaves of \({C_4}\) plants have more number of chloroplast when compared to \({C_3}\) plants,vascular bundles are covered by bundle sheath cells.
AIPMT - 2008
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336932
Examples of \({C_4}\) plants are _
1 Maize
2 Sorghum
3 Amaranthus
4 All of the above
Explanation:
Examples of C4 plants are - Sugarcane, Maize, Sorghum, Amaranthus .
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336933
In bundle sheath cells, \({C_4}\) acids are broken down to release?
1 \(C{O_2}\) and 3C molecule
2 \(C{O_2}\) and 2C molecules
3 CO and 2C molecules
4 CO and 3C molecule
Explanation:
In bundle sheath cells, \({C_4}\) acid (malic/ aspartic acid) is broken down into a \({C_3}\) acid (PGA).
336930
The given diagram represents Hatch and Slack cycle. Identify the different cells and name the structure which connects these cells (A-C) in \({C_4}\) cycle.
1 A - Mesophyll cell, B - Plasmodesmata, C - Bundle sheath cell
2 A - Bundle sheath cell, B - Plasmodesmata, C - Mesophyll cell
3 A - Mesophyll cell , B - Bundle sheath cell , C - Plasmodesmata
4 A - Plasmodesmata, B - Bundle sheath cell, C - Mesophyll cell
Explanation:
A. Mesophyll cell B. Plasmodesmata C. Bundle Sheath cell
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336931
\({C_4}\) plants are more efficient in photosynthesis than in \({C_3}\) plants due to
1 Higher leaf area
2 Presence of larger number of chloroplast in the leaf cells
3 Presence of thin cuticle
4 lower rate of photorespiration
Explanation:
\({C_4}\) plants are more efficient in photosynthesis than \({C_3}\) plants but use more energy. The leaves of \({C_4}\) plants have more number of chloroplast when compared to \({C_3}\) plants,vascular bundles are covered by bundle sheath cells.
AIPMT - 2008
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336932
Examples of \({C_4}\) plants are _
1 Maize
2 Sorghum
3 Amaranthus
4 All of the above
Explanation:
Examples of C4 plants are - Sugarcane, Maize, Sorghum, Amaranthus .
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336933
In bundle sheath cells, \({C_4}\) acids are broken down to release?
1 \(C{O_2}\) and 3C molecule
2 \(C{O_2}\) and 2C molecules
3 CO and 2C molecules
4 CO and 3C molecule
Explanation:
In bundle sheath cells, \({C_4}\) acid (malic/ aspartic acid) is broken down into a \({C_3}\) acid (PGA).
NEET Test Series from KOTA - 10 Papers In MS WORD
WhatsApp Here
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336930
The given diagram represents Hatch and Slack cycle. Identify the different cells and name the structure which connects these cells (A-C) in \({C_4}\) cycle.
1 A - Mesophyll cell, B - Plasmodesmata, C - Bundle sheath cell
2 A - Bundle sheath cell, B - Plasmodesmata, C - Mesophyll cell
3 A - Mesophyll cell , B - Bundle sheath cell , C - Plasmodesmata
4 A - Plasmodesmata, B - Bundle sheath cell, C - Mesophyll cell
Explanation:
A. Mesophyll cell B. Plasmodesmata C. Bundle Sheath cell
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336931
\({C_4}\) plants are more efficient in photosynthesis than in \({C_3}\) plants due to
1 Higher leaf area
2 Presence of larger number of chloroplast in the leaf cells
3 Presence of thin cuticle
4 lower rate of photorespiration
Explanation:
\({C_4}\) plants are more efficient in photosynthesis than \({C_3}\) plants but use more energy. The leaves of \({C_4}\) plants have more number of chloroplast when compared to \({C_3}\) plants,vascular bundles are covered by bundle sheath cells.
AIPMT - 2008
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336932
Examples of \({C_4}\) plants are _
1 Maize
2 Sorghum
3 Amaranthus
4 All of the above
Explanation:
Examples of C4 plants are - Sugarcane, Maize, Sorghum, Amaranthus .
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336933
In bundle sheath cells, \({C_4}\) acids are broken down to release?
1 \(C{O_2}\) and 3C molecule
2 \(C{O_2}\) and 2C molecules
3 CO and 2C molecules
4 CO and 3C molecule
Explanation:
In bundle sheath cells, \({C_4}\) acid (malic/ aspartic acid) is broken down into a \({C_3}\) acid (PGA).
336930
The given diagram represents Hatch and Slack cycle. Identify the different cells and name the structure which connects these cells (A-C) in \({C_4}\) cycle.
1 A - Mesophyll cell, B - Plasmodesmata, C - Bundle sheath cell
2 A - Bundle sheath cell, B - Plasmodesmata, C - Mesophyll cell
3 A - Mesophyll cell , B - Bundle sheath cell , C - Plasmodesmata
4 A - Plasmodesmata, B - Bundle sheath cell, C - Mesophyll cell
Explanation:
A. Mesophyll cell B. Plasmodesmata C. Bundle Sheath cell
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336931
\({C_4}\) plants are more efficient in photosynthesis than in \({C_3}\) plants due to
1 Higher leaf area
2 Presence of larger number of chloroplast in the leaf cells
3 Presence of thin cuticle
4 lower rate of photorespiration
Explanation:
\({C_4}\) plants are more efficient in photosynthesis than \({C_3}\) plants but use more energy. The leaves of \({C_4}\) plants have more number of chloroplast when compared to \({C_3}\) plants,vascular bundles are covered by bundle sheath cells.
AIPMT - 2008
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336932
Examples of \({C_4}\) plants are _
1 Maize
2 Sorghum
3 Amaranthus
4 All of the above
Explanation:
Examples of C4 plants are - Sugarcane, Maize, Sorghum, Amaranthus .
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
336933
In bundle sheath cells, \({C_4}\) acids are broken down to release?
1 \(C{O_2}\) and 3C molecule
2 \(C{O_2}\) and 2C molecules
3 CO and 2C molecules
4 CO and 3C molecule
Explanation:
In bundle sheath cells, \({C_4}\) acid (malic/ aspartic acid) is broken down into a \({C_3}\) acid (PGA).
