Answer:
tiene 14 cromosoma quiza no me equivoco
Explanation:
Answer:
14 chromosomes
Explanation:
Each gamete will get half of the number of the original chromosomes
Answer:
the answer would result in c
Explanation:
B) carbon
C) magnesium
D) sodium
Answer:
D sodium
Explanation:
Answer:Sphase and Mphase
Explanation:
B. He encouraged production goals for factories.
C. He allowed capitalism in new economic zones.
D. He introduced rules favorable to factory owners.
Option C i.e He allowed capitalism in new economic zones is the correct answer.
Deng Xiaoping was a great politician and economist reformer who modernized industry in China by allowing capitalism in certain districts which were free trade zones. This made industrialists to invest more in industries which lead to the modernization of industrial sector in china.
He allowed capitalism in new economic zones. hence option C is the correct answer.
The job facing China's leadership, according to Deng, was twofold: I fostering economic modernization in China, and (ii) maintaining the Chinese Communist Party's (CCP) ideological unity and control over the arduous reforms necessary by modernization.
Deng Xiaoping was a brilliant politician and economist reformer who helped modernize China's industries by introducing capitalism in specific free trade zones. This encouraged manufacturers to spend more in their businesses, resulting in the modernization of China's industrial sector.
Learn more about Deng Xiaoping here:
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A
All cells contain ribosomes that conduct protein synthesis.
B
Cells contain genetic information in the form of DNA.
If isolated from a eukaryotic cell, mitochondria can no longer survive and reproduce on their
own.
If isolated from a plant cell, a chloroplast can survive and reproduce on its own.
Answer:
C. If isolated from a eukaryotic cell, mitochondria can no longer survive and reproduce on their own.
Explanation:
The endosymbiotic theory proposes that early eukaryotic cells evolved from endosymbiotic interactions among prokaryotic cells. This theory states that mitochondria and chloroplasts were once primitive bacterial cells that were ingested by large anaerobic prokaryotic cells, and then these cells benefited from living and working together. The most important lines of evidence that support this theory are that mitochondria and chloroplasts contain their own genetic material (circular DNA) and their own protein biosynthesis machinery (ribosomes).
The statement supporting the endosymbiotic theory claims chloroplasts can survive and reproduce on their own when isolated from a plant cell. This suggests these organelles, once independent prokaryotic cells, retain certain autonomous features despite integration into the eukaryotic cells.
The endosymbiotic theory proposes that certain organelles in eukaryotic cells, such as mitochondria and chloroplasts, originated as independent prokaryotic cells that were engulfed by a host cell. This event allowed a symbiotic relationship to develop, which subsequently led to the development of eukaryotic cells. The option that best supports this theory is: 'If isolated from a plant cell, a chloroplast can survive and reproduce on its own.'
This statement suggests that chloroplasts, like the bacteria from which they evolved, maintain some ability to live independently. Yet, although they contain their own DNA and ribosomes (symbols of their independent past), they are no longer 'free-living'. Similarly, mitochondria are also likely to have been independent entities because they too contain their own DNA and ribosomes. However, having been integrated into the host cell, they can no longer survive on their own, contrary to what might be inferred from the third option. The first and second options simply represent characteristics of all cells and provide no specific support for the endosymbiotic theory.
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