A scientist studying a species of algae, Gracilaria domingensis, discovered that its color is controlled by a single gene with two alleles. The individuals with a red or green phenotype are homozygous for the red or green alleles and the individuals with a brown phenotype are heterozygous. The scientist crosses two brown individuals. What percent of the offspring from this cross is predicted to be brown?

Answers

Answer 1
The percent of the offspring from this cross that is predicted to be brown is 50%.

The color of Gracilaria domingensis is controlled by a single gene with two alleles, red and green. When an individual is homozygous for the red allele, it has a red phenotype, and when it is homozygous for the green allele, it has a green phenotype. When an individual is heterozygous for the red and green alleles, it has a brown phenotype.

When two brown individuals are crossed, each parent has one red allele and one green allele. Therefore, each parent has a genotype of Rr. When two Rr individuals are crossed, each offspring has a 25% chance of inheriting two red alleles (RR), a 25% chance of inheriting two green alleles (gg), and a 50% chance of inheriting one red allele and one green allele (Rr), which results in a brown phenotype. Therefore, the percent of the offspring from this cross that is predicted to be brown is 50%.

Pls award brainliest!
Answer 2

When the individuals of Gracilaria domingensis (red algae) with a brown phenotype are crossed, then there would be a 50% chance of having brown offspring from this cross.

What type of algae is Gracilaria domingensis?

Gracilaria domingensis belongs to Rhodophyta and it is a macroalgae. It comes under the genus Gracilariales and has more than 300 species. It is of great economic importance. It is also used as food by humans and shellfish. This alga has a cylindrical or blade-shaped thallus with lateral branches. Gracilariales is the third-largest genus in the group of red algae.

Gracilaria species is also a source for the extraction of a complex polysaccharide which is agar. Agar is used widely in laboratories for routine cultivation and in electrophoretic techniques. It is also used in food industries, in the making of jellies, caramel, and frozen food items.

To learn more about red algae, refer to the link:

https://brainly.com/question/1908380

#SPJ2


Related Questions

Sophie was asked t
O The distance from the still water level to the
The distances from the s
wa wave with a wave height of 2 meters and a wavelength of 1 met
changed to 1 meter
trough
trough needs to be changed to 1 meter
crest need to be changed to 1 meter
O The distance from t
water level to
The distance between the two crests needs to be changed to 2 meters
the image she drew What needs to be corrected on the image
2m

Answers

The distance from the still water level to the trough and the crest need to be changed to 1 meter

plagioclase feldspar has the chemical formula, caal2si2o8. is plagioclase feldspar a mafic or felsic silicate mineral?

Answers

Plagioclase  feldspar is a silicate of aluminum. A type of aluminum-containing silicates known as feldspar is often referred to as "non ferromagnesian silicates" or "light silicates" because they don't include iron or magnesium.

Plagioclase ((Ca,Na)AlSi₃O₈) and orthoclase (KAlSi₃O₈) are two types of feldspars. Keep in mind that the additional metals provide the plagioclase a distinct advantage over the orthoclase; the latter has potassium while the former has calcium or sodium. The feldspars are comparable in terms of their physical characteristics, and their lusters can range from glassy to pearly. They are relatively hard, with a Mohs hardness of around 6, and feature two planes of cleavage that intersect at or close to 90°.

The feldspar series also includes anorthite (CaAlSiO₈) and albite (NaAlSi₃O₈). These feldspar series members are on the extreme end.

The earth's feldspars are the most prevalent minerals.

To know more about feldspar, please refer:

https://brainly.com/question/14559305

#SPJ4

Based on the data, under which conditions did the rate of photosynthesis decline? Select all that apply.

1.) During the day
2.) During the night
3.) During sunny days
4.) During cloudy days

Answers

Answer:

During the night and during cloudy days.

Explanation:

Because there is no sunlight during the night and not a lot on cloudy days. This means that photosynthesis cannot occur because it requires sunlight.

how do papillary muscles prevent atrioventricular valve cusps from everting (swinging upward) into the atria?

Answers

Atrioventricular valve cusps are prevented from everting (swinging upward into the atria) by contracting papillary muscles.

The chordae tendineae are pulled when the papillary muscles contract, which prevents the atrioventricular valves' cusps from opening and allowing blood to return to the atria. Thin, fibrous tissue strands known as chordae tendineae join the two atrioventricular valves—the mitral valve and the tricuspid valve—to the ventricles. The cusps or flaps of each valve are held in place by the chordae tendineae and papillary muscle. Pressure gradients across the valves cause the mitral and tricuspid valve cusps to close as the ventricles contract. Blood may leak backward or vomit if the chordae tendineae are not sufficiently taut, so the cusps can shut properly. The mitral valve cusps, in this instance, are prolapsing or failing to seal completely. From the ventricle, blood is dripping back into the left atrium.

Hence, papillary muscle with chordae tendineae holds cusp of valve.

To know more about Ventricles.

https://brainly.com/question/29564818

#SPJ4

trace the movement of a hormone from the organ that produces it to its target binding site (organ or tissue). how does this hormone get from the organ/gland that produces it to its binding site

Answers

Once hormones find a target cell, they bind with specific protein receptors inside or on the surface of the cell and specifically change the cell's activities.

The endocrine organs, which produce chemicals—the hormone—into the extracellular fluid, are responsible for sending these messages. Throughout the body, hormones are largely delivered via the circulation, where they connect to receptors on target cells to produce a specific reaction. Because it has the hormone's receptors, a target cell reacts to the hormone. In other words, a cell is a target cell for a hormone if it has functional receptors for that hormone, and a cell cannot be directly impacted by a hormone if it does not have a functioning receptor. Blood, which is pumped throughout the circulatory system, carries hormones throughout the body. Hormones have the power to control activity in tissues and organs that are not located near the glands that produce them.

To learn more about hormones click the link below:

brainly.com/question/13020697

#SPJ4

the archenteron of a mesolecithal embryo with holoblastic cleavage eventually develops into which structure?

Answers

The archenteron of a mesolecithal embryo with holoblastic cleavage eventually develops into digestive tract.

What do you mean by archenteron?

The archenteron (gastrocoel) is a hollow within an animal embryo there at gastrula stage of development. The anus, or , and the blastopore, which serves as the animal's entrance and entry to the outside world, are both formed by this opening. The stomach cavity is finally formed, in whole or in part, by the archenteron.

Where may one find archenteron?

The growing embryo's primitive gut, known as the archenteron or digestive tunnel, develops during gastrulation. It is the core cavity inside an embryo at the gastrula stage of development.

To know more about archenteron visit:

https://brainly.com/question/29805685

#SPJ4

Krebs, digestive and respiratory system 40 points!!!!

Answers

oxygen

glycolysis leading to the krebs cycle is in aerobic conditions (oxygen presence), whereas the formation of lactic acid is from anaerobic conditions (lack of oxygen)

which statemetn is true and provides evidence that a certain component of the ribosome catalyzes protein synthesis

Answers

The statement "Ribosomes remain inactive following protease digestion" demonstrates that a specific ribosomal component catalyzes protein synthesis.

What is ribosome?

In a ribosome, an intercellular structure made of both RNA and protein, the process of making proteins occurs in a cell. The messenger RNA (mRNA) sequence is decoded by ribosome, which translates genetic code into a particular string of amino acids that form extended chains and fold to form proteins.

Ribosomes are the biological machinery responsible for producing proteins. Every cell contains a large number of ribosomes, each of which comprises two subunits. These two subunits securely shut the messenger RNA molecule before reading each three-letter codon along the length of the molecule. The messenger RNA and the transfer RNA have similar nucleotide sequences and both attach to the ribosome.

Each three-letter messenger RNA codon is matched with a particular transfer RNA's corresponding anticodon to add a particular amino acid to the end of the growing protein chain. When the protein is finished, the ribosome breaks.

To learn more about ribosome visit:

https://brainly.com/question/1604076

#SPJ4

if codons were read two bases at a time instead of three bases at a time, how many different possible amino acids could be specified?

Answers

The variety of codons that might be constructed would be reduced if codons were only 2 bases long. More distinct nucleotides would be needed to generate enough distinct sequences to code for the 20 amino acids.

In E. coli, there are only 3 tRNAs available for the four distinct codons of glycine, for example. While it is true that numerous codons can each code for a single amino acid, this flexibility is only made feasible because of the 'wobble' between the third codon base and the first anticodon base.

combinations of these codons or triplets. Three of the 64 codons are stop codons, as we already indicated. These three stop codons just stop translation; they do not encode any amino acids.

To learn more about codons please click on below link

https://brainly.com/question/9382652

#SPJ4

neonicotinoids are compounds that used to be widely used on farms as effective insecticides. it appeared they were easily absorbed by plants and were present in pollen and nectar, killing honey bees. scientists discovered that neonicotinoids affect the cholinergic synapses in the nervous system of insects, causing their paralysis and death. how do neonicotinoids affect the synapses?

Answers

Answer:

Neonicotinoids are a class of insecticides that work by disrupting the transmission of nerve impulses in insects. The compounds are readily absorbed by plants and are present in pollen and nectar, making them highly toxic to bees and other pollinators.

When neonicotinoids come into contact with insects, they bind to certain receptors in the insects' nervous system, specifically the nicotinic acetylcholine receptors. These receptors are found at the junctions between nerve cells, known as synapses, where they play a key role in transmitting nerve impulses from one cell to the next.

The binding of neonicotinoids to the nicotinic acetylcholine receptors interferes with the normal transmission of nerve impulses at the synapses, leading to paralysis and ultimately death in the affected insects. This mode of action is specific to insects, which is why neonicotinoids are effective at controlling insect pests but are relatively non-toxic to mammals.


There are approximately 200 different types of cells in the human body, although all cells are dependent on other cells to
perform body functions. Explain how your model supports this statement?

Answers

Answer:

Without being able to see your model, it is difficult for me to answer your question, though I have done what I can to help you understand better.

Explanation:

In the human body, different types of cells have specialized functions that allow them to perform specific tasks. For example, nerve cells are specialized for transmitting electrical signals, while muscle cells are specialized for contracting to produce movement. Despite their specialized functions, however, all cells in the human body depend on other cells to perform their functions properly. This is because the body's various systems, such as the circulatory, nervous, and digestive systems, are made up of many different types of cells that work together to maintain the body's overall health and function. For example, nerve cells need support from other cells such as glial cells in order to properly transmit signals, and muscle cells need nutrients and oxygen supplied by the blood in order to contract and move. In this way, the different types of cells in the human body are dependent on each other to perform their functions and maintain the body's overall health.

Geraniums flower in the spring, when they receive less than 12 hours of light. They also flower in the summer, when they receive more than 12 hours of light. What type of plant are geraniums? A. Day-neutral plant B. Dormant plant C. Short-day plant D. Long-day plant​

Answers

Answer:

A. Day-neutral plant

Hope Helps!:)

Suppose that there was an enzyme that cuts bonds between deoxyribose and phosphate groups. what would this enzyme do to a dna molecule?

Answers

The enzyme that cuts bonds between deoxyribose and phosphate groups would make cuts in the "backbone" of each strand of a DNA molecule.

Bacteria include restriction enzymes (and other prokaryotes). They identify and attach to particular DNA sequences known as restriction sites. Only one or a few restriction sites are recognised by each restriction enzyme. A restriction enzyme will create a double-stranded cut in the DNA molecule once it locates its target sequence. The cut typically occurs in a neat, regular pattern at or near the restriction point. Let's take EcoRI, a typical restriction enzyme used in labs, as an illustration of how a restriction enzyme recognises and cuts at a DNA sequence. EcoRI makes cuts at this location:

Hence, DNA cutting enzyme breaks strand of DNA.

To know more about DNA ligase.

https://brainly.com/question/12460592

#SPJ4

Suppose that there was an enzyme that cuts bonds between deoxyribose and phosphate groups. what would this enzyme do to a dna molecule?

Answers

Each DNA strand's "backbone" would be cut by the enzyme that breaks links between deoxyribose and phosphate groups.

Restrictions enzymes are found in bacteria (and other prokaryotes). They locate specific DNA sequences known as restriction sites and cling to them. Each restriction enzyme only recognizes one or a small number of restriction sites. Once it finds its target sequence, a restriction enzyme will make a double-stranded cut in the DNA molecule. The cut often happens at or close to the limitation point in a tidy, consistent pattern. As an example of how a restriction enzyme recognizes and cuts at a DNA sequence, consider EcoRI, a typical restriction enzyme used in labs. EcoRI makes alterations here.

Learn more about DNA

https://brainly.com/question/12460592

#SPJ4

BTB was used to indicate the amount of carbon dioxide present in the test
tubes. A plant was placed in each test tube. The test tube on the left was
placed in the dark and the one on the right was in the light. Which of the
following best explains the results?
The solution in the right test tube became more blue because the algae was doing
more photosynthesis and using carbon dioxide.
The solution in the right test tube became more blue because the algae was only
doing cellular respiration and producing carbon dioxide.
The solution in the right test tube became more yellow because the algae was only
doing cellular respiration and using carbon dioxide.
The solution in the right test tube became more blue because the algae was doing
more photosynthesis and producing carbon dioxide.

Answers

Cellular respiration is the process that resulted in the colour shift. In the presence of an acid, the bromothymol blue indicator turns yellow instead of blue. Thus, option A is correct.

What BTB used to indicate the amount of carbon dioxide?

When acid is present, a dye known as bromothymol blue (BMB) turns yellow instead of blue. The pH of the solution decreases when carbon dioxide is introduced because it produces carbonic acid. When the pH is greater than 7.6, green, between 6.7 and 7.6, and yellow, less than 6, BMB is blue.

Therefore, The solution in the right test tube became more blue because the algae was doing more photosynthesis and using carbon dioxide.

Learn more about carbon dioxide here:

https://brainly.com/question/3049557

#SPJ1

Directions
Drag and drop the correct answer choice to each answer blank.
For each DNA base sequence listed below, drag over the complimentary base sequence that correlates to Chargaff's Rules.

Answers

The complimentary base sequence that correlates to Chargaff's Rules.
TAGCGCG, GGCTAAT, AATAAGC, ATATCCG.

What is complementary base?


Complementary
base pairing is a fundamental concept in molecular biology. It is the process by which two strands of nucleic acid molecules interact with one another, forming a stable double helix. Each base in one strand of the double helix binds to a single complementary base in the other strand, forming a base pair. The four types of base pairs found in DNA are adenine (A) with thymine (T) and guanine (G) with cytosine (C). Complementary base pairing is a key concept in molecular biology. It refers to the process of matching up two strands of DNA or RNA, which have complementary sequences of nucleotide bases. This process is essential for replication and transcription of genetic material, as it allows for the creation of two identical strands of DNA from a single original strand.

To know more about complementary base, click here:
https://brainly.com/question/16475180
#SPJ1

I need HEEEEEEEEEEEEEEEEEEEEEEELPPPPPPPPPPPPPPPPPPPPp

Answers

Answer: C

Explanation:

correct answer: more panthers were born than died.

hope that helped!

suppose a transformation of the parent function f(x) = 10^x is given as g(x) = 10^x -8. Determine the effect the transformation has on the minimun of the function on the interval [0,10]. A. There is no effect on the minimun value of the function on the interval B. The minimun value changes from f(0) = 1 to g(0) = -8 C. The minimun value changes from f(0) = 0 to g(0) = -7 D. The minimun valuce changes from f(0) = 1 to g(0) = -7​

Answers

The effect of the function translation on the minimum of the function on the interval [0,10] is given as follows:

D. The minimum value changes from f(0) = 1 to g(0) = -7.

What is a translation?

A translation is a movement that is either up, down, left or right on the graph of a function.

The definitions of each type of translation are given as follows:

Translation left a units: f(x + a).Translation right a units: f(x - a).Translation up a units: f(x) + a.Translation down a units: f(x) - a.

The parent function in this problem is given as follows:

f(x) = 10^x.

The minimum value of the parent function on the interval [0,10] is given as follows:

f(0) = 10^0 = 1.

The translated function is given as follows:

g(x) = 10^x - 8.

The function was shifted down 8 units, as g(x) = f(x) - 8, hence the minimum value is given as follows:

g(0) = 10^0 - 8 = 1 - 8 = -7.

This means that option D is correct.

More can be learned about translations at brainly.com/question/29211183

#SPJ1

which hormone is absolutely necessary for ovulation to occur? group of answer choices progesterone estrogen fsh lh

Answers

Follicle-stimulating hormone (FSH) regulates the menstrual cycle and increases egg development in the ovaries of women.

What is ovulation?

The process through which a mature egg is released from the ovary is known as ovulation. The egg is released and travels down the fallopian tube, where it can be fertilized for 12 to 24 hours.

What is FSH?

Follicle-stimulating hormone is produced by the brain's pituitary gland (FSH). The proper operation of both men and women's reproductive systems depends on this hormone.

In women, FSH controls both the menstrual cycle and egg production in the ovaries. Throughout a woman's menstrual cycle, her FSH levels fluctuate, peaking just before she gives birth to an egg (ovulates).

The level of FSH in men normally stays constant after puberty, and it aids in controlling sperm production in males.

To learn more FSH visit:

https://brainly.com/question/13254194

#SPJ4

how to proteins with nuclear localization signals, that are bound to nuclear import receptors enter the nucleus question 3 options: by hydrolyzing a molecule of atp to adp and phosphate by interacting with the phenylalanine-glycine (fg) repeats on the fibril proteins of the nuclear pore complex by cleaving the nuclear localization signal from the cargo protein by binding a molecule of ran-gdp

Answers

Proteins with nuclear localization signals, that are bound to nuclear import receptors enter the nucleus through nuclear pore complex.

How does proteins with nuclear localization signals enter the nucleus?

Proteins having nuclear localization signals are transported inward through the nuclear pore complexes, whereas RNA molecules and newly made ribosomal subunits contain nuclear export signals that direct the active transport outward through pore complexes.

Nuclear proteins are transported actively through nuclear pores by a selective and mediated process. The process is mediated by nuclear localization signal and can be divided into two steps, that are : targeting to the pores and translocation through the pores.

To know more about nuclear pore complex, refer

https://brainly.com/question/28295135

#SPJ4

Suppose that there was an enzyme that cuts bonds between deoxyribose and nitrogenous bases. what would this enzyme do to a dna molecule?

Answers

A nucleotide is made up of a sugar deoxyribose, a phosphate group, and one of four nitrogenous bases are adenine,thymine,guanine or cytosine.

C and T bases, which have just one ring, are called pyrimidines, while A and G bases, which have two rings, are called purines.DNA polymerase  is a type of enzyme that is responsible for forming new copies of DNA, in the form of nucleic acid molecules. Nucleic acids are polymers, which are large molecules made up of smaller, repeating units that are chemically connected to one another.DNA is formed by a double strand of paired nucleotides, while ribonucleic acid is typically a single strand. In DNA, the nucleotides are adenine, cytosine, guanine, and thymine, while RNA contains uracil instead of thymine.DNA replication involves the separation of the two original DNA strands. Both of these strands are then replicated using DNA polymerase. This results in two DNA double helices, each with a new strand and an original strand.

To learn more about nucleotide please click on below link.

https://brainly.com/question/967810

#SPJ4

your boss at a pharmaceutical company has asked you to design a drug that can recognize the dna sequence of a specific gene and increase transcription. which molecule is most likely to be able to do this?

Answers

Answer:

A molecule that can recognize the DNA sequence of a specific gene and increase transcription is likely to be a transcription activator.

Explanation:

Transcription activators are proteins or small molecules that bind to specific DNA sequences and enhance the activity of transcription factors, proteins that bind to DNA and regulate the expression of genes. By binding to the DNA sequence of a specific gene, a transcription activator can increase the activity of transcription factors and stimulate the transcription of that gene. Transcription activators are commonly used in the development of drugs that target specific genes and are involved in a wide range of biological processes, including development, growth, and disease.

This form of contraception works by preventing ovulation, making cervical mucus thicker, and changing the lining of the uterus. which form of contraception does this describe?

Answers

Answer:

inplant

Explanation:

Which of the following can affect the rate of photosynthesis? Select all that apply.

- Amount of water
- Amount of oxygen
- Amount of glucose
- Light intensity
- Amount of carbon dioxide
- Temperature

Answers

The amount of water, oxygen, light intensity, carbon dioxide content, and temperature can all have an impact on how quickly photosynthesis occurs.

How do you calculate the rate of photosynthesis?

By enclosing a leaf in a closed, transparent chamber and monitoring the decline in carbon dioxide content over time, the rate of leaf photosynthetic activity may be calculated. Outside of the chamber, the light flux density is measured, and it needs to be adjusted for the transmittance of the chamber.

What are the photosynthetic rate units?

A measure of the maximum pace at which leaves can fix carbon during photosynthesis is called photosynthetic capacity. It is commonly expressed as the quantity of fixed CO2 per mol m-2 sec-1.

To know more about photosynthesis visit:-

https://brainly.com/question/1757345

#SPJ1

When chuncks of a big mass start to separate

Answers

Fixed-size chunk de-duplication is carried out at routers rather than on hosts. The considered packet is first intercepted in a router in real time or at the network endpoints.

What is Chunk size?

The largest physical disc unit devoted to database server data storage is called a chunk. Administrators can allocate disc space in a comparatively big unit thanks to chunks. The largest possible chunk size is 4 TB. The maximum number of chunks is 32,766.

She divided the fruit into big pieces. She speaks on the phone for a sizable portion of her day. He invested a lot of time on the undertaking.

A total of 65,536 blocks are divided into chunks that are 16 blocks wide, 16 blocks long, and 256 blocks high.

MongoDB uses chunk sizes that are 128 MB by default. You have the option of changing the chunk size. Think about the effects of altering the default chunk size: At the expense of more frequent migrations, small pieces result in a more even distribution of data.

To learn more about the Chunk size

https://brainly.com/question/10255331

#SPJ1

Use complete sentences to explain how important the shape of an enzyme is.
Use the words: active site and denatured​

Answers

Answer:

The shape of an enzyme is important because it determines the enzyme's function. The active site is the specific area on the enzyme where chemical reactions occur. The active site is specific to the type of substrate that the enzyme is designed to work with, and its shape must match the shape of the substrate in order to facilitate a chemical reaction. If the shape of the enzyme changes, the active site may no longer match the shape of the substrate, and the enzyme will no longer be able to function properly. This process is known as denaturation, and it occurs when the enzyme's shape is altered due to changes in temperature, pH, or other environmental conditions. When an enzyme is denatured, it becomes inactive and is no longer able to catalyze chemical reactions. Therefore, the shape of an enzyme is critical to its function, and any changes to its shape can significantly impact its ability to carry out chemical reactions.

Explanation:

What are other defenses the body has, in addition to its immune system, that help prevent infection and illness? A. Skin, tears, mucus, and saliva, which act as barriers to pathogens B. Nerve signals and hormones, which regulate body functions C. White blood cells and antibodies, which destroy pathogens D. The stomach, intestines, and liver, which digest bacteria and viruses ​

Answers

Answer:

A. Skin, tears, mucus, and saliva, which act as barriers to pathogens.

sometimes, plants will reward their pollinators with something that benefits them. what is an example of a plant attractant that is also a pollination reward?(1 point)

Answers

Animals that perform pollination while visiting the bloom are rewarded with floral nectar, which is placed inside the flower close to the reproductive organs.

The majority of people are aware that flowers frequently generate nectar, which is vital for promoting pollination and supplying food for hummingbirds and insects. Few people are aware of the extra-floral nectaries, nectar-producing glands that are structurally separate from the flower and found in more than 2,000 plant species in more than 64 families, though they exist in these plants.

Animals that perform pollination while visiting the bloom are rewarded with floral nectar, which is placed inside the flower close to the reproductive organs. Extra-floral nectar has a role in so-called indirect defense by luring predatory herbivores—usually ants—or by discouraging them from feeding on the plant.

Therefore, the two forms of nectar-producing partnerships between plants and animals have long served as textbook illustrations of symmetric mutualism, in which plants supply food or benefits to animals in exchange.

Learn more about "  floral nectar " to visit here;

https://brainly.com/question/29506419

#SPJ4

Answer: Nectar

Explanation:

a major function of th1 cells is to activate macrophages. which molecules expressed by th1 cells are essential for this function?

Answers

A major function of th1 cells is to activate macrophages. IFN-γ is the  molecules expressed by th1 cells are essential for this function.

IFN-, a cytokine secreted by Th1 cells that is unique to them, stimulates macrophages and DCs, improving their capacity to destroy intracellular microorganisms and deliver antigens to T lymphocytes. Tumor necrosis factor (TNF), lymphotoxin, and IL-2 are among substances that Th1 cells can release that help with antimicrobial defence.

Through cell interaction and localised IFN- release, TH1 cells stimulate infected macrophages. This causes a sequence of metabolic reactions that transform the macrophage into an effective effector cell for fighting microorganisms.

Learn more about T lymphocytes from:

https://brainly.com/question/12324561

#SPJ4

how does having a capsule increase the virulence of a bacteria cell? group of answer choices a capsule gives bacteria antibiotic resistance. bacteria with a capsule cannot be phagocytized by immune cells. the capsule speeds up asexual reproduction of the bacteria. the capsule increases bacteria motility.

Answers

Bacteria with a glycocalyx capsule cannot be phagocytized by immune cells. This increase the virulence of a bacteria cell.

The outermost layer of the cell wall of most bacteria is covered by a structure called the bacterial capsule, which is normally a hydrated polysaccharide complex made of monosaccharides linked together by glyosidic bonds. The capsule prevents the bacterial cell from being ingested and destroyed by phagocytosis. The components of the bacterial surface become slick due to capsules. Making bacteria immune to enhancing their invasiveness, allowing them to attach to surfaces and hide from the immune system by mimicking host tissues. The capsule guards against desiccation and toxic byproducts for the cell.

Hence, bacterial capsule is for unwanted environment condition.

To know more about Immune cell.

https://brainly.com/question/14182701

#SPJ4

Other Questions
during a strike, the employer loses production unless it can hire replacement workers, and even then, productivity may be reduced. t/f What steps should you take when the results of an experiment do not support your hypothesis?. A nurse is caring for a client who has acute osteomyelitis. Which of the following interventions is the nurse's priority?a. Provide the client with antipyretic therapyb. Administer antibiotics to the clientc. Increase the client's protein intaked. Teach relaxation breathing to reduce pain What is 213 divided? Also how do you break 23 into tens and ones? Match each property of a liquid to what it indicates about the relative strength of the intermolecular forces in that liquid. Strong intermolecular forces Weak intermolecular forces Answer Bank high boiling point high vapor pressure high viscosity high surface tension Given h(x)=-5x-4 find h(3) Which english king actually fought in the crusades? john henry ii richard i william the conqueror the macroenvironment is also known as the environment. multiple choice question. fixed internal external general Which literary device does Orwell most use to support his purpose in writing in this passage?characters, to show that what happens on the farm is fictionallegory, to show similarities between the farm and the Soviet Unionpoint of view, to show how the characters think about the murderssetting, to show that events in the Soviet Union may have been caused by the economy Business format franchises typically allow franchisees substantial flexibility in how they run their individual franchise units. T/F Which country is most connected to other countries? Which sentence is an example of the word "dilemma" as its used in the passage?AEve had to decide if she wanted to stay in her hometown for college or attend a college in another state.BEve decided to go to college in her hometown because she likes being near every member of her family. which of the following has the lowest conductivity? a. 0.1 m cuso4 b. 0.1 m koh c. 0.1 m bacl2 d. 0.1 m hf e. 0.1 m hno3 x 3y = 12 2x y = 1 (1 point) a line includes points 0 comma 1 and negative 3 comma negative 4. A line includes points 0 comma negative 4 and negative 6 comma negative 2 a line includes points 0 comma 4 and 1 comma 3. A line includes points negative 2 comma 2 and negative 4 comma 0 a line includes points 0 comma negative 1 and 1 comma negative 3. A line includes points 6 comma negative 10 and 3 comma negative 11 a line includes points 0 comma 4 and 3 comma 5. A line includes points 1 comma 1 and 2 comma 3 the confidence interval approach is the correct method by which to determine sample size. true false Which of the following best describes the result of meiosis? Select 3 that apply. WILL GIVE BRAINLIEST HELP PLEASE!!!!!!!!!!!!!!!!!!!!!! IM TIMED!!!!!!!!!!!! 25 POINTS!!!!!!!!!! PLEASE HELP!!!!!!!!!!Match the data to the type of satellite that would provide it.maps for deployed forcesphotographs of enemy weapons facilitiestime and location of missile launchremote sensing reconnaissanceearly warning According to _____, the medical establishment is a powerful social control agent.a. symbolic interactionistsb. functionalistsc. feministsd. conflict theoristsAnswer: D A beetle is moving along a straight line at a constant rate. It moves 23 of a foot in 15 of a minute.What is the average speed of the beetle? let's say you see a comet's nebulous (meaning `cloudy-looking') tail stretching across the sky, and it's several million kilometers long. how big is the solid object that has developed this tail, and what's it made of?