In Bufo marinus, the tongue is attached at the anterior part of the buccal cavity?
Select one:
a. True
b. False

Answer:

Explanation:

Cell membrane integral proteins especially trans-membrane proteins facilitate and regulate the movement of particular molecules across the cell membrane. Examples of these molecules are glucose and sodium ions. These molecules are either charged and cannot pass through the hydrophobic lipid layer of the cell membrane and/or are too large to pass through the cell membrane pores (like the aquaporins).Other types of cell membrane proteins are peripheral proteins. Collectively these proteins can have several other functions include cell signaling, enzymatic activity, cell-to-cell recognition , and etcetera.

Membrane proteins serve various functions including the transport of nutrients into and out of the cell, excretion of wastes, signal transduction, and serving as anchors for structural components. Integral proteins form channels or pumps for transport, while peripheral proteins function as enzymes or recognition sites. Together, they are essential for maintaining cellular homeostasis.

Membrane proteins are crucial for a variety of cellular processes. Firstly, they are involved in the transport of nutrients across the cell membrane. Such nutrients cannot cross the phospholipid bilayer on their own due to their polar nature or size. Similarly, membrane proteins assist in the excretion of waste products like CO₂, which need to be regulated within the cell. Another key role of these proteins is in transmitting signals; acting as signal transducers, they allow the cell to respond to external cues. Additionally, they also serve as anchors for the cell's structural framework, interacting with the cellular cytoskeleton and extracellular matrix.

Specifically, these proteins can be classified into two major classes: integral proteins, which are typically embedded within the lipid bilayer, and peripheral proteins, which are associated with the bilayer's surface. Integral proteins can form channels or pumps that facilitate active and passive transport, while peripheral proteins can function as enzymes or cell recognition sites that aid in immune responses or cell adhesion.

Overall, membrane proteins are indispensable for maintaining the cell's internal environment, allowing for a controlled exchange of substances to sustain cellular life.

Final answer:

Scanning for long open reading frames to find genes works in prokaryotes due to their less complex genome organization and lower noncoding DNA content. This method is not as effective in eukaryotes, which have more noncoding DNA, individual promoters for each gene, and complex chromatin structures that hinder straightforward gene identification.

Explanation:

In prokaryotes, scanning a DNA sequence for long open reading frames (ORFs) is a logical method for gene identification because prokaryotic genomes have less noncoding DNA and often organize genes encoding proteins of related functions into operons. This means that genes are grouped together, have a single promoter, and can be transcribed into polycistronic mRNA, making it easier to identify coding sequences.

However, using this approach in eukaryotes imposes challenges. Eukaryotic DNA contains a much higher percentage of noncoding DNA, which means that scanning for long ORFs would yield many false positives, as noncoding introns and other noncoding elements could be mistakenly identified as genes. Additionally, eukaryotic genes are typically monocistronic, each gene having its own promoter, and exist in a complex chromatin structure, which makes simple scanning insufficient.

Another complexity in eukaryotic genomes is that promoters can be located within genes or far away from them, both upstream or downstream. This means that the regulatory sequences are not always neatly placed before genes, as seen in prokaryotes. Also, eukaryotic DNA is wrapped around histone proteins, forming nucleosomes, which complicate direct access to the DNA sequence for transcription and therefore, gene identification.

Answer:

Proline

Explanation:

Proline's unique characteristic it's that it is the only amino acid where the side chain is connected to the backbone twice forming a nitrogen-containing ring, this means it has a substituted alpha-amino group. This characteristic is important to the structure of proteins, because, contrary to glycin which adopts many main chain conformations, proline if most commonly found in tight turns because of its rigidity.

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Answer:

False

Explanation:

Scientist believe that the primitive atmosphere lacked free oxygen. Oxygen is a highly reactive molecule that would have made difficult for complex macromolecules to appear and then create life.  Rocks from the precambrian period support this theory.

Anaerobic cells appeared first, then photosynthesis appeared filling the atmosphere with oxygen and the aerobic organism develop cellular respiration to obtain energy, a process more efficient than anaerobic respiration.

Answer: b. H2O ->S NADPH -> Calvin cycle

Explanation:

Photosynthesis can be compartmentalized into two phases: one that depends directly on the light - photochemical phase and one that does not depend on the light, called chemical phase.

The first uses H2O to produce ATP and a reduced electron carrier (NADPH + H +), the second uses ATP, NADPH + H + and CO2 to produce sugar. In the photochemical phase, light energy is used to produce ATP from ADP + Pi, through a set of reactions mediated by groups of molecules - the photosystems - in a cycle called photophosphorylation.

There are two types of photophosphorylation: one non-cyclic that produces NADPH and ATP and one cyclic that produces only ATP. In the chemical phase, which is not directly dependent on light, non-cyclic photophosphorylation products - NADPH and ATP - and CO2 are used to produce glucose, in the so-called Calvin-Benson cycle. Although it is also called the dark phase, it is not independent of light, since for the enzyme responsible for fixing CO2, RuBisCo, requires light to be reduced and to be in its active state.

Answer:

The correct option is: c. glacial-interglacial cycles

Explanation:

Pleistocene, also known as the Ice Age, is a geological epoch that is dated about 2.588 million to 11,700 years before present.

At the end of Pleistocene, the last glacial period ended and it also corresponds to the extinction of large mammals.

The cause of the extinction during Pleistocene is considered to be a combination of many factors such as human predation, climate change, interspecific competition, and unstable population dynamics.

Answer:

c. the degradation of cyclin is the correct answer.

Explanation:

The decline of MPF activity at the end of mitosis is due to the degradation of cyclin.

The MPF stands for maturation promoting factor is an enzyme promotes the passage into M phase from the growth phase (G2 )

During the mitosis process the enzyme which breaks the cyclin gets activated and due to this level of cyclin gets decrease.

The decrease in the levels of the cyclin leads to a decline in the levels of MPF at the end of mitosis.

MPF is composed of cyclin and kinase. It lets the cell go from G2 stage to M stage. When the cell is going to anaphase, MPF inactivates. The decline of MPF activity at the end of mitosis is due to the degradation of cyclin. Option (C).

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Many molecules regulate the cell cycle during the different stages of the mitosis process to make it possible.

There are too many factors interacting, activating, and deactivating to pass from one stage to another.

Cyclins are cell cycle regulator proteins that control the cell during the process of division. Different types of cyclins act on a different stages.

When the cell is going through one of the stages, the only cyclin in high levels is the one that is regulating that part of the cycle.

Once that stage is over, that cyclin concentration decreases, and the following one increases.

Kinases, Cdk, are enzymes that depend on cyclins and that remain inactive until cyclins are present.

The enzyme becomes functional when the cyclin binds it. Then, the kinase can accomplish its functions.

When the cyclin and the kinase are together, they compose the Maturation Promotor Factor, MPF.

MPF is composed of cyclin and kinase. MPF is in charge of letting the cell go from the G2 stage to the M stage.

The inactivation of MPF is due to the degradation of cyclin. As cyclin is destroyed, the MPF gets inactive.  

Steps:

1) During the whole cell cycle, cyclin M remains at low levels.

2) When the cell is ready to pass from G2 to M phases, cyclin M increases its concentration and binds Cdk.

3) Together, these proteins compose the MPF that makes this transition possible.

4) Once the cell is in the M stage, MPF needs to decrease.

5) The factor autoregulates by activating another complex. The anaphase-promoting complex/cyclosome, APC/C.

6) When the cell is ready to go from metaphase to anaphase, the APC/C complex begins the cyclins M elimination process. The complex also activates separase to separate chromatid sisters while destroying cyclins M.

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Answer:

The target receptor is expressed in the membrane, the activity of the receptor can instigate the production of small molecules known as the secondary messengers that coordinate and initiate the intracellular signaling pathways. For example, cyclic AMP is a secondary signal molecule.  

When the signal molecules stimulate the receptor, the signal is carried into the cell generally by means of secondary messengers.  

Second signal molecules, also known as second messengers, are crucial components of cell signaling pathways. They relay the signal from the cell surface receptor to the interior of the cell, helping to propagate or even amplify the signal for a larger cellular response. Examples include cyclic AMP, inositol trisphosphate, and calcium ions.

The nature of "second signal molecules" in signaling pathways refers to a significant part of cell communication. These molecules are often termed second messengers because they relay the signal from the receptor on the cell surface, which is first to identify the signaling molecule, to the interior of the cell. The function of these intermediates is to propagate the signal and sometimes amplify the signal to produce a larger cellular response. Biologically essential second messengers include cyclic AMP (cAMP), inositol trisphosphate (IP3), and calcium ions.

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Answer:

Positive and Negative feedback

Explanation:

In positive feedback, the released product in the process allows the increase in the product. For example- during the time of child birth, crevix due to more pressure allows contractions  and release of oxytocin. The hormone oxytocin causes more contraction.

In negative feedback, the released product causes decline in the level. For example, the temperature regulation mechanism, high temperature cause start sweating when there is temperature drop then low temperatures causes vasoconstriction and temperature increased again.

Answer:

Option A , The allele for yellow is dominant to white

Explanation:

It is given that 23 percent of the sheep have white fat and 77 percent have yellow fat.

Thus, it is clear that sheeps with yellow fat is a dominant characteristics.

Usually, the frequency of homozygous recessive allele in a given population is represented by  [tex]q^2[/tex]

and here [tex]q^2 = 0.23[/tex]

Frequency of allele for white fat [tex]= q = \sqrt{0.23} \\q= 0.479[/tex]

While frequency of homozygous dominant allele and heterozygous dominant allele is represented by [tex]p^2+2pq\\[/tex]

And here [tex]p^2+2pq = 0.77[/tex]

Allele for yellow fat [tex]= 1-q\\= 1-0.479\\= 0.521[/tex]

Hence, option A is correct.

Answer:

For the first question the answer is B. For the second question the answer is C.

Explanation:

The first question: If oxygen is present, production of acetyl-CoA, the citric acid cycle, and electron transport chain follow in order. If no oxygen is present, either lactic acid fermentation or alcoholic fermentation follows.

The second question: Leaves appear green because the green portion of visible light that strikes them is reflected.

Hope this helps

-Amelia

Cellular respiration is a type of respiration ( metabolic pathway )that involves the breaking down of glucose into ATP. and it follows four ( 4 ) stages which are ;

Glycolysis is the stage ( metabolic pathway) in cellular respiration when glucose is converted  into two molecules of pyruvate in the presence of oxygen  or  the conversion of glucose into two molecules of lactate if no oxygen is present during the process

Hence we can conclude that The best explanation on the steps following glycolysis is  If oxygen is present, production of acetyl-CoA, the citric acid cycle and electron transport chain follow in order. if no oxygen is present either lactic acid fermentation or alcoholic fermentation follows.

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Pea plants have several visible differences, and since it is a common plant Mendel saw it as a perfect subject for his experiments, since pea have stamen and stigma these plants can self-pollinate, fertilizing the stigma with stamen's pollen, to prevent this, Mendel removed their stamen.

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Final answer:

Mendel conducted experiments on pea plants by cross-fertilizing and self-fertilizing them to study inheritance patterns. Cross-fertilization involved manually transferring pollen between different true-breeding plants, while self-fertilization occurred naturally in subsequent generations.

Explanation:

Gregor Mendel is famed for his experiments on pea plants that formed the basis of modern genetics. To carry out his studies on inheritance, Mendel performed both cross-fertilization and self-fertilization techniques on true-breeding plants, primarily the species Pisum sativum. For cross-fertilization, Mendel manually transferred pollen from the anther (male reproductive organ) of one pea plant to the stigma (female reproductive organ) of another, ensuring that the two parent plants had different traits. Before doing this, he removed the anthers from the recipient plant to prevent self-fertilization and ensure controlled breeding.

When Mendel's cross was successful, he obtained what he termed as the P or parental generation. He would then cultivate the resulting seeds to produce the first generation of offspring, known as the F1 generation. After examining the traits in the F1 generation, Mendel permitted these plants to self-fertilize, meaning they produced seeds using their pollen, creating the F2 generation. This meticulous approach allowed Mendel to discover the inheritance patterns that would lead to his famous laws of heredity.

Answer:

Laxatives, which enhance bowel movements, are abused by the individuals who desire to lose weight and are suffering from eating disorders. Laxative abuse leads to extreme symptoms like hypokalemia, diarrhea, abdominal pain, acid-base disturbance, and weight loss.  

The majority of the laxatives are captivated by the colon and are discharged in feces or urine as metabolites. In the analysis of urine, the volume of urine gathered within a 24 hours duration is more than two liters. The level of sodium and chlorine reduces in urine and the levels of potassium will enhance in the urine.  

A change in electrolyte balance and changes in acid-base results, hypokalemia is the clinical characteristic of laxative abuse. The pH of urine will decline on the basis of the extremity of the abuse. The levels of creatinine will increase, and one can witness elevation in the secretion of renin and aldosterone because of the loss of fluid.  

Answer:

e. LH, FSH and testosterone levels would be high

Explanation:

Releasing hormones produced by the hypothalamus stimulate the anterior pituitary gland to release the tropic hormones which in turn stimulate the release of hormones from other glands.

The gonadotropin-releasing hormone produced by the hypothalamus makes anterior pituitary to release gonadotropins (LH and FSH).

The LH stimulates the Leydig cells of testes to release the androgens (testosterone). Therefore, continuous release of releasing hormone from the hypothalamus in a male would increase the LH, FSH and testosterone levels.

If a man's hypothalamus continuously produces releasing hormones, it would lead to high levels of LH, FSH, and testosterone in the bloodstream owing to a successive chain of hormonal stimulation leading up to increased testosterone production in the testes.

The hypothalamus is a small region in the brain that plays a crucial role in many important functions, including sending signals to the pituitary gland to release hormones into the bloodstream. When the hypothalamus continuously produces releasing hormones, it stimulates the pituitary gland to secrete luteinizing hormone (LH) and follicle-stimulating hormone (FSH). These hormones, in turn, stimulate the testes to produce more testosterone. Thus, the answer is e. LH, FSH, and testosterone levels would be high.

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Answer:

1. Ends of the respiratory branches are called alveoli.

2. C. To control blood flow to different areas of the body depending on activities

Explanation:

1. The trachea divides into left and right primary bronchi which in turn divide multiple times upon entering the lungs and make the bronchial tree.

The final branches of the bronchial tree are the terminal bronchioles that lead to alveoli. The alveoli are the balloon-shaped structures and serve as the site of gas exchange between the blood and inhaled air.  

2. The opening and closing of sphincters of capillary beds regulate the direction of blood flow. The opening of sphincters allows the blood to flow into associated branches of capillary beds while closed sphincters direct the blood from arterioles to venules via thoroughfare channel.

This local change in blood flow is responsible for the autoregulation of blood flow to different tissues to match their respective metabolic demands. For example, during physical activity, more blood is directed to skeletal and cardiac muscles.

The Mesozoic era is featured by the arousal of b. birds.

The Mesozoic Time is the age of the dinosaurs and kept going nearly 180 million a long time from around 250 to 65 million a long time back. It includes periods called the Triassic, Cretaceous, and Jurassic periods. A mass-extinction stamped the starting and conclusion of the Mesozoic Period. The occasion that caused the move from the Paleozoic time to the Mesozoic period was the most prominent termination this soil has seen.  

There's noteworthy prove that birds developed inside theropod dinosaurs, particularly, that winged creatures are individuals of Maniraptora, a category which belongs to dinosaurs period.

Answer:

A DNA is the genetic material of the organism which gets transferred to progeny controlling their traits. The DNA contains a sequence of nucleotides which codes for a protein called genes which provide instruction of the trait.

The DNA forms an mRNA molecule which by the process of Transcription and this mRNA molecule gets translated into the protein by Translation.  Translation proceeds in the ribosomes where mRNA bases are studied by the ribosomes in the form of triplets called codons. Each codon codes for a specific amino acid which gets bonded to form a polypeptide.  

Since the sequence of bases form codons which form the proteins in the same sequence as they are arranged on the mRNA, therefore nucleotides of the gene are collinear with the amino acids if the proteins.

Answer:

n

Explanation:

s

Answer:

The correct answer is option C.

Explanation:

Empowering women provides them with the power to decide over their own reproduction and they usually should have the choice to postpone having children. All women should possess the right to autonomy and choice of reproduction.  

Women should possess the right and social accountability to decide about when and how to have children and should possess the right to decide about how many to have, no women can be forced to bear a child or should be inhibited from doing so against her desire.  

Answer:

Human ear is not only responsible for hearing by also control balance.

Human ear has  three sections the outer; middle; and inner ear.

The outer ear consist of pinna and ear lobe, middle ear consist of  three tiny bones the malleus, incus and stapes, and inner ear contains cochlea and the vestibular system.

The inner ear carry vestibular system which consist of  three semicircular canals, saccule and utricle, responsible for maintaining balance.

The outer ear collects sound waves from outside and guide it to middle ear, and the middle ear changes the sound waves into vibrations and pass it to inner ear. the inner ear utilizes vibrations and send it to nerve impulses. The semicircular canals in the inner ear contains hair cells and  fluid and hair cells.  When anyone moves their head the fluid in semicircular canals moves along. the motion is then detected by hair cells, which are then send nerve impulses to the brain and functions in maintaining balance.

Answer:

The semicircular canals of the inner ear help you with balance. When you move your head, fluid inside the semicircular canals moves as well. This movement of the fluid moves the hairs of the canals, creating nerve impulses that travel up to your brain and let it know that your head is off balance.

Explanation:

Answer:

As this ratio of land and man was given by demographer Thomas Malthus who said population on grew in an arithmetic and earth production in a geometric fashion.

Explanation:

Answer:

The correct answer will be option-A.

Explanation:

ADH or anti-diuretic hormone is a chemical messenger produced by the hypothalamus in response to the water level in the blood, maintain blood pressure.

ADH is released in response to the osmolarity of the blood that is a low amount of water which is perceived by the osmorecpetors in neurons. The low level of water leads to the production of ADH from neurons which binds to the ADH receptors in the collecting tubules of the kidneys.

They allow insertion of aquaporins-2 in the membrane which allow re-absorption of the water to maintain the water level of the body.

Thus, option-A is the correct answer.

Answer:

The correct answer is d. IgG

Explanation:

During pregnancy the fetus is attached to the mother body by placenta and IgG is the only antibody which can cross the placenta and reach the fetus. This antibody is very important for an infant to get protection from infections.

Measles is a viral disease that usually infects infants who are not vaccinated against it. Until the vaccination is done the infant is protected by the passive immunity given by his mother through passing the IgG antibody.

This maternal antibody is capable of protecting infants for the first six months of life after which vaccination is required to protect the infant from measles.

Answer:

a. Coded for on the X and Y chromosomes

b. Coded for on the X but not Y chromosome

c. Coded for on the Y but not X chromosome

Explanation:

The X and Y chromosomes are the sex chromosomes as they are involved in sex determination. All the genes that are present on the X and Y chromosomes are inherited along with these chromosomes and therefore, exhibit sex-linked inheritance.

X and Y chromosomes share a homologous region. Therefore, the sex-linked genes are defined as the ones present on both X and Y chromosomes as well as the ones that are present on either X or Y chromosomes.

For example, the gene for hemophilia is present on the X chromosome; but not on the Y chromosome. The SRY gene is present only on the Y chromosome.

Answer:

Explanation:

Mitosis takes place in somatic cells of the body while the meiosis takes place in the germ cells. The mitosis is the equational division while the meiosis is reductional division.  

The meiosis has 2 cell divisions i.e. meiosis I and meiosis II. The mitosis is a single division.

The pairing between the homologous chromosome/synapsis occurs in meiosis. It is not found in mitosis.  

During the pachytene stage of meiosis, crossing over takes place. The homologous chromosome exchanges its genetic materials in crossing over.

In mitotic cell division, the chromatids do not exchange their genetic material.

The chromosome numbers are always the same as the parent cell in the mitotic division. In meiosis, the number of the chromosome turns to half of their parent cells.

There are 4 haploid chromosomes/tetrads forms at the end of meiosis. In meiotic division 2 chromosomes form from the parent cells.

Final answer:

Meiosis includes two nuclear divisions leading to four haploid genetically distinct cells, with homologous chromosomes pairing, crossing-over, and lining up as tetrads. Mitosis results in two identical diploid cells without these features. A diploid human cell has 46 chromosomes, whereas a haploid cell has 23.

Explanation:

In comparing meiosis and mitosis, several key differences are noteworthy. Both processes are preceded by one round of DNA replication, but meiosis involves two nuclear divisions that result in four genetically distinct haploid daughter cells, whereas mitosis results in two identical diploid daughter cells.

During meiosis I, a crucial aspect is the pairing of homologous chromosomes, each consisting of two sister chromatids. They become bound together with the synaptonemal complex, leading to the formation of chiasmata during crossing-over. Crossing-over is the exchange of genetic material between non-sister chromatids of homologous chromosomes, bringing about new combinations of genes. After this genetic recombination, homologous chromosomes line up along the metaphase plate in groups of four, known as tetrads, with kinetochore fibers from opposite poles attached to each homolog's kinetochore.

A diploid human cell, such as a skin or liver cell, has 46 chromosomes. In contrast, a haploid human cell, like a sperm or egg cell, has 23 chromosomes. Genetic variation arises from crossing-over, the independent assortment of chromosomes during meiosis, and random fertilization of gametes.

Answer:

Guanine is complementary to Cytosine.

Explanation:

The DNA molecule is made up of different components one of them is pairing of nitrogenous bases. The nitrogenous bases are the A, G, C, T. The A , G are the purine and C, T is the pyrimidine.

The A pairs with T by double hydrogen bond, and C pairs with G by a triple hydrogen bond. Thus the helix is arranged in antiparallel order.

The pairing of nitrogenous bases obeys Chargaff's rule. According to this rule, the combination of adenine and thymine is approximately equivalent to the combination of guanine and cytosine.  

If the DNA bases do not obey this rule then the helical structure can't be possible. The pairing of purine, purine, and pyrimidine, pyrimidine results too short and too broad helix. Thus proper order of the helix can't be possible.  

This is the very reason A double bonds with T and C triple bonds with G.

Answer:

cytosine

Explanation:

Answer:

Two main component of Central nervous system are brain and spinal cord.

Brain:

Brain acts as the main coordinating center of the body. The brain is protected in the skull. The brains control the emotions, thought process and learning memory of the organism. The brain interprets the information received by the five different sense organs.

Spinal cord:

The spinal cord is involved in the reflex action of the body. Spinal cord is involved in the somatosensory organization of the body. The motor pathways are originated from the spinal cord. Body's proprioceptive information travels through the spinal cord.

Answer:

Option (c).

Explanation:

The Mendel's give the two most important laws to explain the transmission of the characters in the organism. Mendel is known as father of genetics and explained his work on the pea plant Pisum sativum.

The Mendel's law of independent assortment explains that in the combination of different genes the alleles of the genes separate or assort independently to one another during the meiosis process. The genes must be present on different chromosome to assort independently.

Thus, the correct answer is option (c).

Mendel's second law, the Law of Independent Assortment, supports that genes behave as separate particles and alleles of different genes separate independently during meiosis, making the answer both b. and c. are correct.

The question pertains to Mendel's second law, known as the Law of Independent Assortment. This law highlights how alleles of different genes separate independently of one another during the process of meiosis, leading to the gametes containing a mix of alleles. It refutes the concept of blending inheritance, where genes were thought to behave like fluids, and instead, supports the idea of particulate inheritance, where genes behave as discrete units or particles.

Therefore, the statements that are true according to Mendel's second law and his other discoveries are that genes behave like separate particles rather than like fluids, and the alleles of different genes separate independently of one another during meiosis. Hence, the correct answer is: both b. and c. are correct.

a. If the phenotype is that of the dominant trait (for example, purple flowers), then the genotype is either homozygous dominant or heterozygous (PP or Pp in this example).

To draw the genotype here, you have two possible options: PP homozygous dominant or Pp heterozygous dominant.

b. If the phenotype is that of the recessive trait, the genotype must be homozygous recessive (for example, pp).

Yes, in this case, if you want a recessive trait to show on the phenotype your only option is to have pp alleles.

c. If the problem says "true-breeding," the genotype is homozygous.

In this case, your only option is P or p.

Either if it's dominant ( capital letter) or recessive (lower letter)

Answer:

b. all three pathogens are obligate anaerobes.

Explanation:

Tetanus is caused by an exotoxin produced by the bacterium Clostridium tetani, which is normally found in the soil, although it may be present in the intestines of mammals. It is an anoxic and spore-forming bacteria. It enters the body through wounds or deep punctures, finding in the wound the anoxic conditions to germinate its spores, producing its potent toxin.

Anthrax is caused by the bacterium Bacillus anthracis, which is a stationary and endospore-forming bacteria that is resistant to high temperatures and chemicals. It is a strictly aerobic bacterium and can be found naturally in the soil. Both animals and humans can breathe or ingest spores of this bacterium by consuming meat or contaminated water. When spores get into the body, their turn into active cells and produce exotoxins

Botulism is caused by the pathogen Clostridium botulinum, a strict anaerobic bacillus, producing endospores and 8 different types of toxins. Being a soil-borne bacterium, it usually appears in the food of animal and vegetable origin.

Answer:

- They have a relative thin layer in their cell wall

-They use O2 for cellular respiration

-They are shaped like rods

-They can convert atmospheric nitrogen to ammonia

Explanation:

The genus Azotobacter comprises a group of species of bacilli (rod-shaped), strict aerobics (they need oxygen to live) and gram-negative, which is to say they have a thin layer of peptidoglycan in their cell wall, that when performing a gram staining would appear pink. These bacteria can fix nitrogen, that is, convert atmospheric nitrogen (N2) into ammonia (NH3), more available to metabolize by most organisms, a process essential to life.