MULTIPLE CHOICE: Evidence for evolution includes all of the following except?a. punctuated sedimentation
b. similarities and differences in protein and DNA sequences between organisms
c. the fossil record
d. homologous structures

Answers

Answer 1

Answer: Evidence for evolution includes all of the options here (similarities and differences in protein and DNA sequences between organisms, the fossil record, and homologous structures) except for punctuated sedimentation.

Answer 2

Answer:

Final answer:

Among the provided options, 'punctuated sedimentation' is not considered evidence for evolution while the fossil record, similarities and differences in protein and DNA sequences between organisms, and homologous structures are. Punctuated sedimentation is a geological term not directly related to biological evolution.

Explanation:

The question is asking which option is not evidence for evolution. Evolution is the process of change in all forms of life over generations.Fossil record, similarities and differences in protein and DNA sequences between organisms, and homologous structures are all direct evidence for evolution.

Punctuated sedimentation, however, is not a form of evidence for evolution. It is a term often used in geology to describe periods of deposition followed by periods of non-deposition or erosion, but it doesn't provide direct evidence for biological evolution.

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Complete the sentence. The Babylonian Captivity __________.A. led to the elimination of serfdom

B. helped to spread the Renaissance to northern Europe

C. weakened the prestige of the popes

D. strengthened the overseas trade of Italy

Answers

NONE OF THE ABOVE CHOICES IS CORRECT.

Babylonian Exile is the forced detention of Jews in Babylonia following the latter's conquest of the kingdom of Judah. However the Jews were eventually released by Cyrus the Great and returned to Palestine.

What are antibiotics and ribosomes?

Answers

Antibiotics are drugs that inhibit bacterial growth, often by targeting structures like ribosomes, involved in protein synthesis. Ribosomes, present in all living cells, are complex structures composed of rRNAs and proteins responsible for creating proteins.

Antibiotics are compounds that inhibit the growth of bacteria. They function by targeting certain structures and processes in bacterial cells, such as the ribosomes, while typically having minimal or no effect on human (eukaryotic) cells. Some antibiotics function by binding to the 30S subunit of bacterial ribosomes, such as aminoglycosides and tetracyclines, disrupting protein synthesis and thereby inhibiting bacterial cell growth.

Ribosomes are complex macromolecules that are responsible for protein synthesis in cells. They are composed of catalytic ribosomal RNAs (rRNAs) and many distinct polypeptides.

Prokaryotes (like bacteria) have 70S ribosomes, while eukaryotes (like humans) have 80S ribosomes in the cytoplasm and rough endoplasmic reticulum, and 70S ribosomes in mitochondria and chloroplasts. Specific antibiotics target the bacterial (prokaryotic) ribosomes and disrupt their function, which is essential for the survival of the bacteria.

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Answer:

Antibiotics: A substance that protects and fight against the virus form the body...!

Ribosome:Ribosomes are macromolecular machines, found within all cells, that perform biological protein synthesis. Ribosomes link amino acids together in

Which cells contain a nucleus and membrane-bound organelles?

Answers

Eukaryotic cells

What Is a Cell with a Nucleus?
When you think of your body, consider the ultimate boss of everything. What organ tells your entire body what to do? The answer is, your brain! Your brain tells your lungs to breathe, your heart to speed up or slow down, and your digestive system to break down food.

All these organs are made of cells. Cells are the basic units of life, and even though they are microscopic they each have a brain of their own. This brain is called the nucleus. The nucleus holds the cell's DNA and controls all cell function. Cells with a nucleus are eukaryotic, and are also known as eukaryotes.

However, not all cells have a nucleus. Some cells have their DNA just floating around the cell. This would be analogous to lower organisms, like worms, that don't have a nice thick skull around their brains. These cells are called prokaryotic. The nuclear envelope in eukaryotes is like our skull, covering the nucleus and keeping the DNA safe.

Structure of a nucleus
nucleus structure
Eukaryotic cells also have tiny parts called membrane bound organelles. Organelles, like the name sounds, are tiny organs of the cell.

Eukaryotic cells compared to prokaryotic cells
eukaryote versus prokaryote
Like our body has a stomach to digest food, cells have an organelle that serves a similar purpose. These organelles are all contained in a membrane, keeping them separate from the rest of the cell so they can be the most efficient. Let's take a look at some of the common membrane bound organelles and their jobs inside the cell.

Examples of Membrane Bound Organelles
We now know that the nucleus is the brain of the cell, holding the DNA. But other organelles inside the nucleus are also important, just like the other organs in our body are.

A city is another analogy that works for the cell. The city is the cell itself and each organelle is like a building, or part of the city. There is the endoplasmic reticulum, which surrounds the nucleus. This organelle is involved in protein and lipid synthesis, and it's kind of like a factory making the basic parts for the cell.

Those parts are shipped to the golgi to be distributed to the rest of the cell. The golgi is like the post office of the cell. From the golgi, proteins are shipped through vesicles like trucks on a highway, going where they need to be. The plasma membrane might be one destination for those proteins, since it is the outer covering of the cell. The plasma membrane is like the walls of a city, only letting certain things in and out.

The power plant of the cell, supplying energy for the entire city, is the mitochondria. And our cities also need to get rid of waste, right? An organelle called the lysosome breaks down unwanted or old materials in the cell, recycling them for later use. Finally, peroxisomes are important organelles that also do reactions using oxygen and protect the cell from free radicals, or dangerously reactive compounds.

Organelles in an animal cell
animal cell
Plant cells are a little bit different and have some additional organelles. In plant cells, there is an organelle called a vacuole, which is like a water storage tower in a city. Some animal cells have small vacuoles, but they are not as prominent as they are in plants. This organelle stores water and helps the plant cell hold its shape. Plant cells also have an even more rigid boundary outside the plasma membrane called the cell wall. This thick structure is like reinforcements on our cell wall. They also have chloroplasts, which are used to turn sunlight and carbon dioxide into food.

Organelles inside a plant cell
plant cell
Other organelles don't have a membrane but are still important. Ribosomes are a type of organelle that makes protein and can work with the endoplasmic reticulum. Both prokaryotes and eukaryotes have this organelle.

Eukaryotic cells are cells that have a nucleus and membrane-bound organelles.

Who owns eukaryotic cells?

The humans.
The animals.
The plants.

Eukaryotic cells have a membrane around the nucleus that separates them from the cytoplasm. Inside the nucleus are the nucleic acids and inside the cytoplasm are all the organelles necessary for the functioning of the cells.

Eukaryotic cells are more complex than prokaryotic cells because of their configuration.

Prokaryotic cells, on the other hand, do not have a nucleus, so the nucleic acids are loose in the cytoplasm and are not separated from the other organelles, which in this type of cell are few and less complex than those of eukaryotic cells.

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The study of organisms based on their similar body structures is referred to as _____. comparative morphology comparative embryology comparative zoology comparative fossilization

Answers

comparative morphology

Comparative morphology is the scientific study of organisms where their structures, physical entities and elements are identified to be similar or dissimilar. Using only simple basis of empirical observation, a scientist can detect whether two animals are of the same family or not.

Answer:

comparative morphology

Explanation:

Which of the following molecules can be considered a final product in the flow of information within a cell?A) DNA
B) RNA
C) protein
D) lipid
E) Protein or RNA can be the final product of a gene.

Answers

The molecules that can be considered a final product in the flow of information within a cell is E) Protein or RNA can be the final product of a gene.

What is flow of information within a cell ?

Information moves through a cell from DNA to mRNA to protein. Information flow is the fundamental tenet of biology. A principle or collection of principles established by a body of authority as unquestionably true is called a dogma.

According to the fundamental dogma, information flows through our cells most commonly in this pattern: from existing DNA to produce new DNA (DNA replication). To create new RNA (transcription) from DNA Translation creates new proteins from RNA.

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The answer is A DNA your welcome

In a zygotic life cycle:_________A. Haploid cells form gametes that fuse to produce thick-walled diploid zygotes capable of surviving stressful conditions.
B. There is an alternation of generations.
C. The zygote undergoes meiosis and produces many heat-resistant spores that increase the population size and aid in dispersal.
D. Haploid cells form spores that fuse to produce thick-walled zygotes capable of surviving stressful conditions.
E. none of the choices provided.

Answers

Answer:

a. Haploid cells form gametes that fuse to produce thick-walled diploid zygotes capable of surviving stressful conditions.

Explanation:

The zygotic life cycle is exhibited by fungi and protists mostly. In these organisms, the multicellular organism is haploid. Haploid cells form gametes by mitosis. The haploid gametes are fused together to form the diploid zygote. Zygote mostly develops a thick wall to survive the unfavorable growth conditions. This zygote represents the only diploid phase of the life cycle of these organisms. Meiosis in zygote forms the haploid organism under favorable conditions.

Answer:

Explanation:

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