100 Points!!! need biology help please i am desperate and will give 100 here is 2 screen shots of the work sheet

S phase of cell cycle would you see a chromosome that looks like this. Hence option D is correct.

DNA synthesis or replication takes place during the S phase of a cell cycle, which happens during interphase and comes before mitosis or meiosis. By doing this, a cell's genetic material doubles before it begins mitosis or meiosis, providing enough DNA for the cell to divide into daughter cells.

The chromosomes of the cell condense and move toward one another, aligning in the center of the dividing cell, and the nucleus of the cell disintegrates during metaphase. The chromosomes may now be identified when viewed under a microscope.

One of a chromosome's two identical halves that has been replicated in preparation for cell division is known as a chromatid. The centromere, a constrictive area of the chromosome, is where the two "sister" chromatids are linked.

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The process by which unrelated organisms independently evolve similarities when adapting to similar environments is called convergent evolution.

Evolution is the process by which the inherited traits of biological populations change over successive generations. These traits are the expressions of genes, which are passed down through reproduction from parent to offspring.

The convergent evolution is the process by which organisms adapt to similar environments, creating analogous structures and features, despite not being genetically related.

When organisms with a different lineage independently evolve similar structures, it is known as convergent evolution.

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The Andes Mountains Tropical Hotspot is the world's most diverse hotspot. About one-sixth of all plant species in the world live in this region.

Although they only make up roughly 2.3 percent of the planet's land area, biodiversity hotspots are home to 44 percent of the world's flora and 35 percent of its land animals. The majority of plants in a biodiversity hotspot are endemic, which means they are unique to that area of the planet. However biodiversity hotspots are in a conservation crisis by definition. A territory must have lost at least 70% of its original natural vegetation, typically as a result of human activities, in order to be labelled as a biodiversity hotspot.

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Answer:

True

Explanation:

In passive transport, transport of substances occurs without the expenditure of energy. It takes place along the concentration gradient as it is the movement of solute from its higher concentration to its lower concentration .

Related information:-

Osmosis:-

It is the movement of water molecules from their higher concentration to lower concentration or movement of water molecules from a region of lower solute concentration to higher solute concentration.

Absorption of water from the roots of plants occurs through osmosis.

Active Transport:-

It is the movement of solute from its lower concentration to its higher concentration. It is done with the expenditure of energy.

e.g. - Na+/K+ pump

If you were observing a live specimen under the 40x objective lens and it moved out of your field of view, there are a few steps you can take to find it again quickly and easily: Move the slide,  switch to the 10x objective lens, and located the specimen.

First, move the slide around a bit while looking through the eyepiece. This will help you get a general sense of where the specimen might have moved to.

Next, switch to the 10x objective lens, which has a wider field of view. This will allow you to scan a larger area of the slide and help you locate the specimen more easily.

Once you have located the specimen using the 10x objective, you can switch back to the 40x objective to continue observing it in greater detail.

If you are still having trouble locating the specimen, you can try moving the slide around more systematically, using the mechanical stage controls to move it up, down, left, or right while scanning with the 10x objective. You can also ask a colleague or instructor for help, as they may have additional tips or tricks to share based on their own experience.

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If recombinant gene is inserted into animal embryo, animal should become sterile as an adult : False ; Only the sperm and egg cells should contain copy of recombinant gene : False ; Gene will be produced in all cells every cell should contain copy of recombinant gene : True.

Recombinant DNA molecules are the DNA molecules formed by laboratory methods of genetic recombination that bring together genetic materials from multiple sources and creating sequences that would not be found in genome otherwise.

When recombinant gene is inserted into an animal embryo, animal may or may not become sterile as an adult, depending on various factors such as nature of the gene, the location of its insertion, and effect of the gene on the animal's reproductive system.

When a gene is inserted into embryo, it becomes a part of the animal's genome and is present in all cells of the animal, including somatic cells (i.e., non-reproductive cells) as well as germ cells (i.e., sperm and egg cells). Therefore,  protein encoded by recombinant gene will be produced in all cells of the animal and every cell should contain a copy of recombinant gene.

Once the recombinant gene is incorporated into animal's DNA, it will be transcribed and translated into protein in all of its cells.

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At the beginning of the action potential, positive sodium ions (Na+) flow from outside the nerve fiber into the nerve fiber.

A nerve fiber is part of a neuron that conducts electrical impulses, which transmit information from one cell to another. Axons and dendrites are the two types of nerve fibers that neurons are made up of. Nerve fibers are coated with a fatty substance called myelin that improves the speed of nerve impulses travel along the fiber.

The opening of voltage-gated sodium channels in the membrane of the neuron allows sodium ions to rapidly move into the cell, leading to depolarization and the initiation of the action potential. This influx of positively charged sodium ions generates an electrical signal that propagates down the length of the neuron, ultimately triggering the release of neurotransmitters at the synapse.

Potassium ions (K+) also play a crucial role in the action potential, as they flow out of the neuron during the repolarization phase, restoring the resting membrane potential. However, at the beginning of the action potential, it is the influx of sodium ions that drives depolarization and initiates the electrical impulse.

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A human zygote contains 46 chromosomes.

A diploid zygote is created during sexual reproduction when a haploid sperm cell, which has 23 chromosomes, combines with an egg cell, which also has 23 chromosomes. Two sets of 23 chromosomes, one inherited from the mother and one from the father, make up the zygote's full complement of 46 chromosomes.

A human zygote has 46 chromosomes total, including one pair of sex chromosomes and 22 pairs of autosomes (non-sex chromosomes). The sex chromosomes—females have two X chromosomes and males have one X and one Y chromosome—determine the biological sex of the person.

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The structures that increase the absorptive area of proximal convoluted tubule cells are microvilli.

The microvilli extend from the apical surface of the cells and increase their surface area, allowing for more efficient absorption of filtrate. The proximal convoluted tubule is the first segment of the nephron, which is found in the kidney.

Its primary function is the reabsorption of ions, water, and nutrients that have been filtered out of the blood by the renal corpuscle. The proximal convoluted tubule has a large number of microvilli that aid in reabsorption.

The proximal tubule reabsorbs around two-thirds of the water, sodium, and potassium ions present in the initial urine. The brush border, which is formed by the numerous microvilli present on the luminal surface of the tubule cells, is responsible for this.

As a result, the term "brush border membrane" is frequently used to refer to the apical surface of proximal tubule cells.

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Answer:

1. Fossil fuels are not renewable energy sources

If we do not reduce consumption, we will run out of them, very quickly. In this case, very quickly means maybe in our life span.

According to Woldometers, we will run out of oil in 47 years, natural gas in 52 years, and coal in 133 years. In the long term, if we want to use energy sources that will never run out, there are better alternatives than fossil fuels.

2. Fossil fuels pollute the environment

Fossil fuels contribute to greenhouse gases, which is one of their major disadvantages. The most harmful for the environment is coal because it has many more harmful combustion products than other fossil fuels.

In contrast, natural gas is the most environmentally friendly fossil fuel simply because it burns much cleaner. It means that if we burn natural gas under perfect combustion circumstances, there will be minimal to no harmful compounds.

But the bottom line is that fossil fuels are probably the main contributors to global warming, which is a major fossil fuel disadvantage because it is one of the biggest threats to humanity. That is why we do not hear good things about fossil fuels.

3. In the case of irresponsible use, they can be dangerous

It is important to note that fossil fuels are not the most dangerous energy sources. If we compare them to nuclear energy, we can easily see that nuclear power is much more dangerous.

But, in case of irresponsible use, they may cause an accident. For example, natural gas is a really flammable energy source, which is both an advantage and a disadvantage. Because of its inflammability, natural gas is the most commonly used energy source in the EU. But on the other hand, it is a combustible material which can explode. This is the biggest disadvantage of natural gas.

But oil is not safer either. In 2010, an ultra-deepwater drilling rig called Deepwater Horizon exploded, causing the largest marine oil spill in history.

Explanation:

ligamentum teres  structure is the adult remnant of the umbilical vein . Thus the Correct option (a).

The ligamentum teres, also known as the round ligament of the liver, is a structure in the human body that is a remnant of the fetal umbilical vein. It extends from the inferior border of the liver to the umbilicus, where it forms a shallow depression called the fossa for the ligamentum teres.

While the umbilical vein in the fetus carries oxygenated blood from the placenta to the developing liver, it is no longer needed after birth when the lungs begin to function. The vein eventually degenerates and becomes the fibrous ligamentum teres, which plays a role in supporting the liver and maintaining its position in the abdominal cavity.

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Answer:

Explanation:

We know that base pairing occurs between the mRNA and the anitocodon loop of tRNA .

According to base pairing, Adenine forms two hydrogen bonds with Uracil ( Thymine in case of DNA) , And guanine forms three hydrogen bonds with cytosine.

Also there are no tRNA for stop codons . And as UAA is a stop codon , no anitocodon loop is available for it.

So the required nucleotide sequence

AUG UUC CUG UAA

UAC AAG GAC

Related information:-

tRNA :-

In 2D structure it looks like a clover leaf , but in 3D it is inverted L in structure. It has anitocodon loops that has base complementarity with mRNA . Secondly it has amino acceptor end to which it binds to amino acid. There are only one tRNA for each amino acid.

The two major purposes served by carbohydrates are: c. Energy and structure.

For living things, carbohydrates are their main source of energy. They offer a source of glucose that can be converted into ATP (adenosine triphosphate), the main source of energy for cells.

In cells and tissues, carbohydrates also act as structural elements. For instance, cellulose, a carbohydrate, gives plant cell walls structural support, whereas chitin, a carbohydrate, supports the exoskeletons of insects and other arthropods.

Carbon, hydrogen, and oxygen atoms make up the organic compounds known as carbohydrates. They are categorised according to how many monosaccharide units they contain, which can be anywhere between one and thousands. Simple sugars like glucose, fructose, and galactose, which serve as the building blocks for more complex carbohydrates, are examples of monosaccharides.

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The class of major histocompatibility molecules that is specific to antigen-presenting cells is dendritic cells.

Dendritic cells are an essential part of the immune system's ability to fight infections and diseases. They are antigen-presenting cells (APCs), which implies that they process and present antigens (foreign substances that activate an immune response) to T-cells (specialized immune cells). They play a crucial role in initiating the immune response to an antigen in the body by presenting it to T-cells that have never seen it before.

The immune system distinguishes between self and non-self substances in the body through the major histocompatibility complex (MHC) molecules. MHC molecules are responsible for presenting antigens to T-cells in order to initiate an immune response. They are classified into two classes: MHC class I and MHC class II.

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True. While laboratory tests used in screening programs should ideally be highly accurate, most are likely to yield either false positives or false negatives.

False positives occur when a test indicates the presence of a condition or disease when it is not actually present, while false negatives occur when a test indicates the absence of a condition or disease when it is actually present. False positives and false negatives can occur due to a variety of factors, including test sensitivity, specificity, and accuracy, as well as the prevalence of the condition in the population being tested.

It is important to minimize the rates of false positives and false negatives in screening tests, as they can lead to unnecessary follow-up testing, treatments, and anxiety in patients, as well as increased healthcare costs. Therefore, it is important to carefully evaluate the performance of screening tests and consider factors such as test accuracy, reliability, and validity when selecting and implementing screening programs.

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The genomic differences between individuals in populations are due to genetic variation.

What is genomic variation? Genomic variation is the term used to describe differences between the DNA sequences of individuals. Each person has a unique genomic sequence that is distinct from that of other individuals because of genetic variation.

Genetic variation is one of the most important factors in evolution, as it is responsible for the differences between organisms that allow for natural selection to occur. It can also be used to identify individuals or groups based on their genetic profiles.

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Answer:

Genetic disorders are transferred

Answer:

Statement 2, 4, and 3

Explanation:

Statement 2 is true: precipitation, such as rainwater, is the primary source of freshwater on Earth.

Statement 4 is true: human activity, such as taking a bath, can change the quality of a freshwater resource.

Statement 5 is not true: pollution in lakes can affect groundwater because the ground does not act as a barrier or filter to stop pollution from seeping into the groundwater.

Statement 1 is not true: rainwater alone cannot replace or replenish freshwater sources if there is a long-term drought, as rainwater can be insufficient to offset the loss of freshwater. Statement 3 may be true in areas that have aquifers or shallow groundwater systems, as an increase in surface freshwater may lead to an increase in groundwater recharge. However, this will depend on the specific hydrogeological conditions of the area, so this statement is not universally true.

Answer:

1 2 3 & 4 on edge

Explanation:

picture below⬇️⬇️⬇️⬇️

The plants perform photosynthesis, have chlorophyll, and produce oxygen as a by-product. The process of photosynthesis in plants is the process of converting light energy into chemical energy.

During this process, plants use carbon dioxide and water to synthesize glucose (a type of sugar). Oxygen is also released as a by-product of photosynthesis. Oxygen is then used by living organisms to produce energy through cellular respiration.

Plants contain a green pigment called chlorophyll, which is the primary pigment involved in photosynthesis. Chlorophyll is located in the chloroplasts of plant cells. Chloroplasts are organelles that contain chlorophyll, along with other pigments and enzymes required for photosynthesis.

Plants are the primary producers in most ecosystems. They are also the foundation of the food chain, as they provide food for herbivorous animals (which in turn are preyed upon by carnivorous animals). Plants are essential to the survival of most living organisms on Earth.

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The blood vessel that empties directly into the superior vena cava is the brachiocephalic vein. More precisely that is the right brachiocephalic vein.

The brachiocephalic veins are blood vessels that carry deoxygenated blood from the upper limbs and the head and neck regions to the superior vena cava, which then goes to the heart. Each brachiocephalic vein is formed from the union of the internal jugular vein and the subclavian vein. The brachiocephalic veins then merge to form the superior vena cava, which is a large vein that carries deoxygenated blood from the head, neck, arms, and chest to the right atrium of the heart in humans.

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The main job of the plasma membrane, also known as the cell membrane, is to control which substances enter and leave a plant cell. The plasma membrane is a thin, flexible, and semipermeable layer that covers the outer surface of the cell.

It is responsible for a variety of important functions, including maintaining the cell's shape, protecting it from external harm, and regulating the exchange of materials between the cell and its environment. The plasma membrane is made up of a lipid bilayer, which consists of two layers of phospholipid molecules.

The hydrophobic (water-repellent) tails of the phospholipids face inward, while the hydrophilic (water-attracting) heads face outward, forming a barrier that is selectively permeable. Proteins and other molecules are embedded in this lipid bilayer, forming a complex network of channels and pumps that allow certain substances to enter or leave the cell, while excluding others.

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The correct answer is option D. Fat does not help produce neurotransmitters in the human body.

Fat is a substance that the body can store energy. It can be found in various foods, including fats, butter, oils, and other foods. The body requires fat for insulation and cell function, as well as the creation of various hormones.

Apart from these roles, fat maintains the integrity of cell membranes, produces important hormones such as estrogen and testosterone, and plays a role in blood clotting by activating clotting factors. It also serves as a source of energy and is used to create prostaglandins, which are hormone-like substances that aid in inflammation and blood clotting.

But fat does not play any role in neurotransmitter generation.

The following is not a function of fat in the human body:

A. Fat maintains the integrity of cell membranes.

B. Fat provides insulation and stores energy.

C. Fat helps regulate hormones and metabolism.

D. Fat helps produce neurotransmitters.

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Humans fight with one another all the time - for employment, athletic rewards, relationships, and so on. Do we, however, vie with other species? If you've ever gone camping and had your food taken by a sly raccoon, bear, or other critter, you've experienced interspecific rivalry - conflict between members of various species who use overlapping, restricted resources.

Resources are often scarce in an environment, and many species may fight for them. Plants in a yard, for example, may fight for soil minerals, water, and sunshine.

The ecological function or "way of life" of a species is characterized by the complete collection of circumstances, resources, and relationships that it requires (or can use).superscript comes to a close. Each species integrates into an ecological group in its own unique manner and has its own set of tolerable environmental variables. A fish species' niche, for example, may be determined in part by the salinity (saltiness), pH (acidity), and temperature variations it can endure, as well as the kinds of food it can consume.

The competitive exclusion principle states that two species cannot occupy the same niche in the same environment and cohabit successfully. Because species with identical niches have equal requirements, they would fight for exactly the same resources.

The image below depicts a renowned illustration of the competitive exclusion principle, which includes two kinds of single-celled microorganisms, Paramecium aurelia and Paramecium caudatum. When fully developed Both kinds flourish in the lab on their own. When cultivated in the same test container (habitat) with the same quantity of nutrients, both grow worse, and P. aurelia ultimately outcompetes P. caudatum for food, resulting in P. caudatum's demise.

In the Hershey-Chase experiment, bacteriophages were used to investigate whether DNA or protein was the genetic material that is transmitted from one generation to another.

The researchers grew bacteriophages in a medium containing radioactive phosphorus-32 (32P) and another group in a medium containing radioactive sulfur-35 (35S). 32P labels DNA and 35S labels protein. The bacteriophages were then used to infect bacterial cells. After infection, the bacteriophages were separated from the bacterial cells by centrifugation. The results showed that when the bacteriophages were grown in 32P-containing medium, the radioactivity was found inside the bacterial cells, indicating that the DNA of the bacteriophage was injected into the cell during infection. However, when the bacteriophages were grown in 35S-containing medium, the radioactivity was found in the supernatant, indicating that the protein coat of the bacteriophage remained outside the cell. Therefore, the 32P was labeled in the DNA of the bacteriophage during the Hershey-Chase experiment, which provided strong evidence that DNA is the genetic material that is transmitted from one generation to another.

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The scientist who found that all plants are made of cells is Matthias Jakob Schleiden. Schleiden's discovery that all plant tissues are composed of cells was a significant breakthrough in the field of biology.

Matthias Jakob Schleiden was a German botanist who made significant contributions to the field of plant biology. Schleiden's discovery that all plant tissues are composed of cells was a significant breakthrough in the field of biology. Schleiden's work, like that of his fellow botanist Theodor Schwann, contributed to the formation of the cell theory. The cell theory, which is now one of the most widely accepted theories in biology, states that all living things are made up of one or more cells, which are the basic unit of life.

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The most common way for a fish to move upwards in the water is to pump air out of its swim bladder. The swim bladder is an internal organ that helps the fish maintain its buoyancy. By pumping air out of the swim bladder, the fish can make itself less dense, allowing it to become more buoyant and rise in the water.

This process is known as "buoyancy control," and it helps the fish conserve energy when moving through the water. Additionally, some fish may also choose to pump more air into their swim bladder to make themselves more dense, but this is less common. By controlling their buoyancy, fish are able to move up and down in the water with ease and conserve energy while doing so.

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The correct answer is B. Most biomes are characterized by unique groups of particular species of plants and animals.

Biomes are large geographic regions with distinct climates and ecosystems that are home to certain groups of plants and animals. These plants and animals are specially adapted to the specific climate, soil, and other environmental conditions of the region. As a result, each biome typically contains a unique set of species that are not found in any other biome. This means that a species found in one biome may not be able to survive in another biome. In addition, human activities, such as land clearing, pollution, and climate change, can alter biomes and the species that inhabit them.

The factors affecting the distribution of biomes are temperature and precipitation. Temperature determines the ability of a region to sustain certain types of vegetation and determines the type of biome that will develop. Similarly, precipitation is also a major factor in determining the type of biome, as different levels of precipitation can create different types of vegetation. Other factors such as soil type and altitude can also affect the type of biome that develops. Therefore the correct option is  B

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