Answer: The main steps of digestion in human are ingestion, digestion, absorption, assimilation and excretion
Explanation:
Ingestion is the process where food is taken into the body through the mouth.
Digestion is the process by which the food is broken down into nutrients and waste. This take place in the stomach and small intestine.
Absorption is the process where the separated nutrients is absorbed in the blood.
Assimilation is the process where the absorbed nutrients is utilized by the body tissues and cells
Excretion is the process where the undigested waste is expelled out from the body through the anus.
Answer: Amino acids.
Explanation:
There were an famous experiment made by two biochemists called Stanley Miller and Harold Urey, in the year of 1953. They made it at the University of Chicago, USA.
In this experiment, Stanley Miller and Harold Urey simulated hypothetical conditions that Earth’s early atmosphere had, in order to test the hypothesis that gases (as the methane, carbon dioxide, ammonia, amonia and water vapor) allowed inorganic chemicals to form organic molecules.
After one week, these scientis found that organic compounds were formed.
Through this experiment the scientists Stanley Miller and Harold Urey obtained that several amino acids were formed (the most abundant was Glycine).
According to their work, they got 13 of the 22 aminoacids that are used to make proteins in living cells.
crossing over occurs during the prophase I of meiosis, where homologous chromosomes pair up and exchange segments, contributing to genetic diversity in offspring.
The stage in meiosis where crossing over occurs is the prophase I. During this phase, the proteins associated with homologous chromosomes bring the pair close to each other, a process called synapsis.
The genes on the chromatids of the homologous chromosomes precisely align with each other, initiating an exchange of chromosome segments between non-sister homologous chromatids.
This exchange is known as crossing over, contributing greatly to genetic variation among organisms.
Following this process, the homologous chromosomes separate and distinct combinations of maternal and paternal chromosomes make their way into the gametes.
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plants
fungi
protozoa
these are the choices but i have no idea what the answer is
The correct answer is protozoa.
Binary fission is a type of asexual reproduction. It is the most general kind of reproduction in prokaryotes, like bacteria. It also takes place in some kind of single-celled Eukaryotes, protozoa, like Paramecium and Amoeba.
In protists, like protozoa, the binary fission is usually distinguished into types, like longitudinal or transverse, on the basis of the axis of cell separation.
Binary fission is the most common form of reproduction in protozoa. Therefore, the correct answer is option d.
Binary fission is a method of asexual reproduction in which a single-celled organism divides into two identical daughter cells. Here's an explanation of binary fission and its relevance to protozoa:
Single-Celled Organisms: Protozoa are a diverse group of microscopic, single-celled organisms belonging to the domain Eukaryota. They are found in various aquatic and terrestrial environments.
Asexual Reproduction: Many protozoa reproduce asexually through a process known as binary fission. In binary fission:
Significance for Protozoa: Binary fission is significant for protozoa for several reasons:
Contrast with Other Organisms: While binary fission is common in protozoa, it differs from the reproductive methods of multicellular organisms such as animals, plants, and fungi:
In summary, binary fission is the primary mode of asexual reproduction observed in protozoa. It allows these single-celled organisms to efficiently replicate themselves and adapt to their environment by producing genetically identical daughter cells. This method is essential for the survival and proliferation of many protozoan species.
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