DNA
DNA.
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Yes, plants have DNA, which is a molecule that carries genetic information. DNA controls the growth and development of plants by providing instructions for processes such as cell division, photosynthesis, and the production of proteins essential for growth.
Yes, DNA is organic because it is a complex molecule made up of carbon, hydrogen, oxygen, nitrogen, and phosphorus atoms. It serves as the genetic material in all living organisms, carrying the instructions for their development, functioning, growth, and reproduction.
The two processes that are directly responsible for the growth and development of a butterfly are metamorphosis and molting. Metamorphosis involves distinct stages of development, from egg to larva (caterpillar) to pupa (chrysalis) to adult butterfly. Molting is the shedding of the exoskeleton as the butterfly grows larger during each stage of its development.
Apical meristems are responsible for primary growth at the tips of shoots and roots, while lateral meristems (vascular cambium and cork cambium) are responsible for secondary growth in thickness. Both types of meristems continuously generate new cells for plant growth and development.
The industrial revolution was responsible for the development of urban centers. This is actually attributed as the main factor of growth for the industries.
Gibberellins are growth hormones that control plant height and bud development.
Estrogen is the primary hormone responsible for the development of secondary sexual characteristics in females, including breast development, widening of hips, and growth of pubic and underarm hair.
The molecule that provides instructions for growth is deoxyribonucleic acid (DNA). DNA contains the genetic information that codes for proteins, which are essential for cell growth and development. Genes within the DNA sequence provide the instructions for the synthesis of specific proteins that regulate processes like cell division and growth.
The term defined as population growth limited by carrying capacity is "logistic growth." In logistic growth, population growth slows as it approaches the carrying capacity of the environment, resulting in a stable population size.
The instructions for growth and development are in DNA.