Answer:
B: The new knowledge is used to reevaluate the theory.
Explanation:
Asexual reproduction
Mitosis
Replication
The process that can produce a large number of offspring is asexualreproduction, which is present in the second option. Asexualreproduction does not involve any genetic changes and produces identical offspring.
There are two types of reproduction: asexual reproduction, which includes binary fission, and sexual reproduction, which includes genetic diversity due to the meiosis process and genes crossing over. Asexual reproduction does not take as long as sexual reproduction in offspring, as evidenced by bacteria and other organisms. Asexual reproduction produces a large number of offspring in a short period of time with no genetic diversity from the parents as no sex cells or gametes are involved.
Hence, the process that can produce a large number of offspring is asexual reproduction, which is present in the second option.
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Answer:
Cytochrome C; it provides evidences that there is similarities in the respiratory pathways for producing ATPs by all living organisms especially mammals.
Explanation:
Cytochrome c is located in the intermembranes of mitochondria, and it functions in the transfer of of one electron in electron transport chain,(ETC) needed for generation of proton motive force; for generation of energy in the synthesis of ATPs by ATPase synthase during chemiosmosis. Its allows oxdation-reduction by the switching of its iron ii to iron iii. during electron transports.However its iron atoms does not undergo oxidation with oxygen. This feature makes it stable and an ideal carrier of electrons.
Its amino acid sequences is very similar in all living organisms especially between mammals(e.g man and chimpanzees)with little variation in few amino acid residues due to mutation.This similarity in its amino acids sequences in all living organism together with small molecular size makes it ideal molecular evidence for studying comparative molecular evidence of evolution.
This is because it can be used to trace the pathways of respiration to synthesize energy, and therefore to conclude that most organisms share common ancestry, since a very similar protein sequence in a structure(Cytochrome c) participated in unique ETC mechanisms in all, needed for energy synthesis .
Mitochondrion
Endoplasmic reticulum
Nucleus
Cell wall
Cell membrane
Golgi apparatus
Vacuole
Centrioles
A mold cell typically includes a cell wall, cell membrane, nucleus, ribosomes, mitochondrion, endoplasmic reticulum, Golgi apparatus, vacuole, and lacks centrioles.
A mold cell is a type of fungal cell characterized by distinct structures and organelles that contribute to its form and function. The cell wall, composed of chitin, provides structural support and protection to the cell. The cell membrane, or plasma membrane, surrounds the cell, regulating the passage of molecules in and out. The nucleus houses the genetic material in the form of DNA, governing cellular functions and reproduction.
Ribosomes are responsible for protein synthesis, playing a key role in the translation of genetic information into functional proteins. Mitochondria function as the powerhouse of the cell, producing energy through cellular respiration. The endoplasmic reticulum, both rough and smooth, aids in cellular transport and the synthesis of lipids and proteins.
The Golgi apparatus processes, modifies, and packages proteins for transport within or outside the cell. A distinctive feature of mold cells is the large central vacuole, which serves various functions, including storage of nutrients and waste management. Notably, fungal cells typically lack centrioles, which are involved in animal cell division.
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The person's risk of cardiovascular disease would decrease.
The person's bad cholesterol would decrease.
The person’s good cholesterol would increase.
The correct answer on edge.nuity should be A- ground.
Answer:
1 in 2
Explanation:
Twin studies show that if a monozygotic twin has schizophrenia then there is a __1 in 2___ chance the other twin will develop the disorder.
If a monozygotic twin has schizophrenia, the chance the other twin will develop the disorder is 40-60%. This result from twin studies is indicative of the genetic influence on the disorder, but environmental factors also play a significant role.
The subject of this question is on the heritability of schizophrenia in monozygotic twins, otherwise known as identical twins. Twin studies have shown that if one twin has schizophrenia, the probability of the other twin also developing the disorder is approximately 40-60%.
This is known as the concordance rate for schizophrenia among monozygotic twins.
It's important to understand that even though monozygotic twins share the same genetic material, the manifestation of schizophrenia in both twins is not guaranteed due to environmental influences and possible gene-environment interactions.
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