You are trying to figure out what molecule, DNA, RNA, or protein, is responsible for making your bacterial cell lysate turn blue when you add a certain chemical. You divide your lysate into 4 tubes and add (a) Nothing, (b) protease, (c) RNase, and (d) DNase. Then you add your chemical of interest to each tube. Tubes (a), (b), and (d) turned blue but (c) remained colorless. You conclude:
a. The molecule responsible for making the blue color is DNA.
b. Your RNase didn't work.
c. The molecule responsible for making the blue color is RNA.
d. The molecule responsible for making the blue color is a protein.

Answer:

Option (b).

Explanation:

The frequency of alleles K and k in population are 0.6 and 0.4. The inbreeding coefficient is 0.3.

The heterozygote frequency can be calculated by the formula:

F = [tex]\frac{2Kk-H}{2Kk}[/tex]

Here, K = 0.6, k= 0.4, F = 0.3 and H = approximate genotypic frequency of heterozygote Kk.

Put the values in the above formula

0.3 = [tex]\frac{2\times2\times0.6\times0.4-H}{2\times0.6\times0.4}[/tex]

H = 0.36 ≈ 0.34.

Thus, the approximate genotypic frequency of the heterozygote Kk is 0.34.

Hence, the correct answer is option (b).

Answer:

C) oxidized; produces; reduced; input

Explanation:

Glycolysis and TCA cycle are the first two stages of cellular respiration. Glycolysis breaks down glucose into pyruvate which then enters the TCA cycle in the form of acetyl CoA and is completely oxidized into CO2 and H2O.

Both glycolysis and the TCA cycle produce a few ATPs and a large number of reducing powers (NADH and FADH2). The oxidation of reducing powers during oxidative phosphorylation drives the synthesis of a large number of ATP.

Photosynthesis is the process wherein CO2 is reduced into glucose. The process includes light-dependent synthesis of ATP and NADPH which in turn are used during the Calvin cycle to produce glucose from CO2.

The correct answer is A. Permian.

Explanation

The synapsids were terrestrial vertebrate mammals or animals related to them rather than to reptiles or birds that lived during the Permian (a period that began about 299 million years ago and ended about 251 million years ago) and were the dominant terrestrial vertebrates during it. These animals survived until the Triassic; however, due to the Permian-Triassic extinction, they were not the predominant vertebrate as in the previous period. Later, during the Cretatic and Jurassic periods, their development was minimal and did not have great importance as reptiles were dominant in this period. So, the correct answer is A. Permian.

Explanation:

Spermatogenesis and oogenesis are both forms of gametogenesis, in which a diploid gamete cell, sperm, and eggs respectively produces haploid cells through meiosis.

I hope you find this information useful! good luck!

I added images for both processes!

Answer:

False

Explanation:

Spirochetes have a spiral morphology, they are prokaryotes specifically they are bacteria. Spirochetes have flexible walls  

Bacteria that are round in shape are called cocci.  

Answer:

The correct answer is option c. "frameshift mutations".

Explanation:

The reading frame of a gene is based on base-pair triplets, starting from the start codon until the ribosome encounters with the end codon. Base-pair additions and deletions are collectively referred to as frameshift mutations because they alter the reading frame of the gene. Base-pair additions and deletions break down the original sequence of the gene triplets, which alters the open reading frame and usually results in the production of non active proteins.

Answer:

(A) homospory

Explanation:

Homospory is a type of reproduction found in pteridophytes. This character does not appear in gymnosperm or angiosperm hence it could not favor life on land.  

The exception from the four traits is : ( A ) Homospory

The seed plants survive on land when planted due to certain key features that seed plants possesses and some of these key features are

While Homospory is not a key feature of seed plants it is form of reproduction that is found in pteridophytes. therefore it cannot favor the growth of plants on land.

Hence we can conclude that The exception from the four traits is : ( A ) Homospory

Answer:

A) Clostridium perfringens

Explanation:

Gas gangrene is a type of infection caused by Clostridium perfringens and other species of clostridia. This infection happens in the muscles. The gas produced by the bacteria produces blisters in the tissues.  These infections can occur after injuries, blows or surgeries

Answer:

Evolutionary biology illustrates both the pattern and processes. The processes of evolution are natural selection and other mechanisms, which modifies the genetic structure of the populations. These processes result in evolutionary patterns, that is, the products generated by evolution with time.  

Phylogeny refers to the evolutionary history of a species or a group of species. In order to redevelop phylogeny, the scientists use systematics, that is, an analytical method to categorize the diversity and finding the evolutionary associations between the extinct and the living species.  

The evidence used to redevelop phylogenies can be attained from the fossil record and from the biochemical, morphological, and genetic similarities between the species. The scientists are functioning to develop a universal tree of all life, which will get refined with the gathering of new information.  

Genetic information and an understanding of descent with modification allow scientists to reconstruct phylogenies extending back millions of years.

In order to reconstruct phylogenies that extend hundreds of millions of years back in time, scientists use genetic information and an understanding of the process of descent with modification. By comparing the nucleotide sequence of a gene across different species, scientists can determine how closely related those species are. Genetic variations among species can be used as a measure of their evolutionary relationships. For example, by comparing the gene sequences of humans and chimpanzees, scientists have determined that these two species are closely related. This genetic analysis allows scientists to construct a timeline of the evolutionary history of life on Earth, known as the 'tree of life'.

Answer:

Alcohol, ATP and carbon dioxide.

Explanation:

Alcoholic fermentation may be defined as the conversion of sugar into the cellular energy in the absence of oxygen. This process generally occurs in yeast.

This is a type of anaerobic process that do not require oxygen for their process. The ATP is produced as a form of energy. The carbon dioxide and alcohol is obtained as the by product in the alcoholic fermentation.

Thus, the correct answer is option (a), (c) and (d).

Answer:

The sliding filament theory is the illustration that how the contraction of muscles takes place in order to generate force. At the start of the process, the motor neuron instigates an action potential or impulse to pass down a nerve cell to the neuromuscular junction. This activates the sarcoplasmic reticulum, which discharges calcium into the cells of the muscles.  

When calcium comes within the muscle cells, it combines with troponin, thus, permitting the binding of actin with myosin. The actin and myosin bind with each other and form cross-bridges, which further contracts by utilizing ATP as the source of energy.  

ATP is manufactured again, thus, permitting actin and myosin to sustain their strong binding condition. Relaxation takes place when stimulation of the nerve ceases. Calcium is then moved back within the sarcoplasmic reticulum dissociating the association between the actin and myosin.  

The actin and myosin go back to their unbound condition making the muscle to relax.  

Answer:

a. The pH of the matrix increases is the correct answer.

Explanation:

When electrons flow along the electron transport chains of mitochondria,The pH of the matrix increases because the electron transport chain is forming a gradient of hydrogen ions in respects to the matrix and the inner membrane surface of the mitochondria.

The concentration of hydrogen ion outside is higher as compared to the matrix. Thus due to higher concentration of hydrogen ions outside creates lower pH and the pH of the matrix increases.

When electrons flow along the electron transport chains of the mitochondria, the pH of the matrix increases. This is because protons are pumped out of the matrix into the intermembrane space, creating a more alkaline (high pH) environment in the matrix.

When electrons flow along the electron transport chains of the mitochondria, a change that occurs is the increase of the pH in the matrix (option a). Here's why: The process of electron transport chain plays a crucial role in cellular respiration.

As electrons pass along the chain, protons (H+ ions) are actively pumped from the mitochondrial matrix into the intermembrane space, creating a proton gradient. The intermembrane space becomes more acidic (low pH) while the matrix becomes more alkaline (high pH). So the pH of the mitochondrial matrix increases during the process.

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Answer:

Exon shuffling.

Explanation:

Exon shuffling may be defined as the phenomena of in which genes are exchanged between the different exons. Types of exon shuffling are transposon shuffling and cross over at the time of gamete formation.

Exon shuffling is responsible for the formation of new genes. Different exons combine together to form the new genes. The duplication of exons also leads to the formation of new genes. The intron-exons structure is altered for the new gene formation.

Thus, the correct answer is exon shuffling.

Answer:

c. increase HDL levels

Explanation:

Cholesterol is carried in blood in two ways, LDL and HDL. Both of them are lipoproteins made of fat and protein. LDL or Low Density Lipoprotein has 50% cholesterol and 25% protein by weight. HDL or High Density Lipoprotein has 20% cholesterol and 50 % protein. LDL carries cholesterol to arteries and deposits it there which is not good for the body. HDL on the other hand removes excess cholesterol from body via liver.

Aerobic exercise increases HDL values and lowers LDL values. It has been shown that exercising regularly can increase HDL level by 6% which is good for the overall health of the body. For maximum effect 30 minutes of moderate exercise should be done 5 times a week.

Exercising has a beneficial effect on blood lipid levels by increasing the levels of HDL, the 'good cholesterol'. It does not typically increase LDL levels, the 'bad cholesterol'. The correct answer to the question is 'c. Increase HDL levels'.

Exercising has a myriad of advantages, one of which includes its beneficial effects on blood lipid levels. Understanding the terms LDL and HDL is critical here. LDL stands for Low-Density Lipoprotein, often known as 'bad cholesterol,' as elevated levels can lead to plaque accumulation in the arteries. On the other hand, HDL stands for High-Density Lipoprotein, or 'good cholesterol', which removes LDL cholesterol from the bloodstream, reducing the risk of cardiovascular diseases.

Now, when it comes to the impact of exercise on these levels, regular physical activity has been found to increase HDL levels in the blood. Hence, the correct answer would be 'c. Increase HDL levels'. Exercise typically does not lead to an increase in LDL levels.

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Answer:

There are only 2 possible genotypes for the mother, FF and Ff.

Explanation:

Because it is an autosomal inheritance, this case F will be the dominant allele and f the recessive allele, where f produces Fatty acid metabolism disorder. If the mother does not possess the disorder, she must possess at least one dominant allele for that specific gene. However, for the other allele, we cannot assure that it is dominant, since it can be recessive and not express itself either in her or in the offspring, because of the father we also only know his dominant allele.

Answer:

(B) Ciprofloxacin treatment kills or halts the growth of the sensitive strains, yet the resistant strains survive.

Explanation:

Campylobacter jejuni is the causal agent of the food-borne infection with the highest incidence in Europe. Both poultry and wild birds are a major reservoir of the bacteria, the bacteria lives in the intestines of warm blooded animals but is only quite harmful to humans. It has been identified that the diversity fo genes is responsible for its resistance to antibiotics.

Answer:

If the comparison is made between two of the living species, then all the proteins would not demonstrate a similar degree of divergence. Though the two species got diverged during the progression of evolution, they have originated from a common ancestor.  

Some of the proteins taking part in very essential activities of the cell, like protein synthesis and replication would have got conserved in both the species. The modifications resulting due to mutations in the sequences of DNA, which further lead to modifications in very essential proteins may result in the loss of function of such kind of proteins. This would be harmful to the organism.  

Only modifications in the proteins that are in reality benefit the organism would be encouraged at the time of divergence. Thus, the degree of divergence of all the proteins in two species will not be same.  

Answer:

All proteins will show different degrees of divergence because some cellular functions are more essential than others to the survival of the organism.

All proteins will show different degrees of divergence because different species live in different habitats and experience different selection pressure.

Explanation:

This is the answer to the same question on mastering biology, but you have to select two correct statements.

Explanation:

The phase of Prophase I of meiosis is very long and divided into 5 subphases: Leptotene, Zygote, Pachytene, Diplotene, and Diakinesis. During a phase of the Diplotene, the degree of condensation is high, which allows individualizing the sister- chromatids that remain attached by the cohesins. The synaptonemal complex disintegrates, and from the centromeres begins a repulsion between homologous chromosomes, which remain associated only with the places where they occur as permutations.

These sites are called chiasmas (Greek, crossed) because they show the crossover of homologous chromatids. Chiasmas represent the cytological finding of the occurrence of permutation. The presence of at least one bivalent chiasm is essential to ensure the correct segregation of the homologous chromosomes in anaphase I.

Answer:

Genetic code comprises 64 codons, out of which 61 codes for 20 amino acids, while the remaining three codons do not code for any amino acids. In nature, only twenty standard amino acids prevail.  

A standard amino acid is considered as an amino acid that possesses an alpha-carboxyl and alpha-amino acid, and which are found in the proteins. Though there are some of the compounds that possess alpha carboxyl and alpha-amino group but are not regarded as standard amino acids, as they do not take place in proteins like the standard one does, and these are termed as non-standard amino acids.  

The frequency of these non-standard amino acids in the proteins is less and they do not comprise all the characteristics demonstrated by the standard amino acids. The genetic code is degenerative and because of this, a single amino acid is encrypted by more than one codon.  

The non-standard amino acids do not exhibit the corresponding amino acids, which can code for them and they are not mediated by the t-RNA's to the location of translation, as there is no corresponding tRNAs for them. Thus, genetic code utilizes only the twenty standard amino acids.  

The correct answer is E. All of the above

Explanation:

Eating disorders include multiple mental disorders such as anorexia, bulimia, rumination disorder or binge eating disorder in which individuals have negative eating habits that have serious consequences on their health including both mental and physical aspects.

In terms of physical health most eating disorders imply the individual restricts its diet or does not consume the nutrients or substances that are necessary to be healthily including insufficient fat, this leads not only to weight loss but also to disruption in the menstrual cycle as this lead to hormonal imbalances and therefore this might also be linked to sterility. Besides this, individuals with eating disorders are more prompt to develop conditions such as kidney or osteoporosis that occurs as bones thin or lose density due to the lack of nutrients. Thus, all of the options are likely the consequences of insufficient fat in eating disorders.

Answer:

The correct answer is - decrease the area of the field of view.

Explanation:

In the microscope, if you increase the magnification power of the objective lens it will result in a decrease in the field of the view. The magnification power is inversely proportional to the field of view which means if decrease the magnification it will lead to an increase in the field of view and vice versa.

The specimen looks larger with a higher magnification as it results in a smaller part of the specimen is exposed or spread out to fill the field of the view.

Thus, the correct answer is option - decreases the area of the field of view.

Answer:

Explanation:

he cell division of eukaryotes consists of 2 types of division - mitosis, and meiosis. Both the cell divisions have karyokinesis which follows the cytokinesis. It takes some hours and an indirect type of cell division. The mitotic chromosomes and meiotic chromosomes show different behaviors -  

In mitosis, the cell divides one time while in meiosis the cell divides 2 times. DNA replication occurs during interphase in mitosis. In meiosis DNA replication happens in the first cell division and no DNA replication in the second cell division.

There is no synapsis in the mitotic chromosome. In meiosis, synapsis occurs in homologous chromosomes. It has seen in the prophase I of meiosis.

The 2 chromatids of the chromosome do not exchange their segments in mitosis. In meiosis the chromatids of 2 homologous chromosome exchange segments. This results in the crossing over between the 2 homologous chromosomes.

The mitotic chromosome, each chromosome joined by a centromere. The meiotic chromosome forms tetrads from bivalent. The bivalent consists of 2 centromeres where the tetrads are attached.

In mitosis, the chromosomes separate slowly during anaphase. but in meiosis short chromosomes separate early, and long chromosomes take some time to separate.

Answer:

The circulatory system of the human body consists of three types of vessels which carry blood. These blood vessels have been distinguished on the basis of structure and function and called arteries, veins and capillaries.

Structure

1. Lumen diameter: Arteries have a large diameter as compared to veins and capillaries and capillaries has the smallest diameter in all of these.

2. Wall thickness: Arteries have the thickest wall than veins and capillaries have the thinnest wall.

3. Wall layer: arteries and veins made of three layers of muscle whereas veins made of one layer of cells.

Function

1. Arteries: brings oxygenated blood (oxygen-rich) from the heart to the body parts in pulses

2. Veins: carry deoxygenated blood from the body to the heart

3. Capillaries: carry both oxygenated and deoxygenated blood away from the body.

Answer:

The following disorders might be treated by using stem cell therapy:

Spinal injuries can be treated by the stem cell therapy. As the neurons can be replaced by healthy neurons and used to treat Parkinson's disease.

The insulin produced from the somatic cells are used to treat the diabetes.

The cancer can be treated by using stem cell therapy.

Any damaged organ or tissue can be replaced by the stem cell therapy.

Different genetic diseases can be cured by the use of stem cells.

Answer:

Although now a days we have evidence that evolution and speciation process can happen in 1 or just a few generations (e.g. clone crayfish or the golden rain tree bug florida and there are many more) usually evolution and speciation process work at a broader scale of time. This is important because communities are evolving together and this creates equilibrium in ecosystems. If evolution happens only in several other may not adapt to these changes.

DNA technologies can be dangerous especially with bacteria  because Gram Negative Bacteria have been found to be fairly capable of inter-species conjugation, this is dangerous because DNA can change bacteria in a way that may be invasive or harmful to other organism.

DNA-based technologies could potentially alter the course of evolution in several significant ways:

1. Directed Evolution: With DNA-based technologies like gene editing (e.g., CRISPR-Cas9), humans could directly manipulate the genetic makeup of organisms, accelerating the rate of evolution. This could lead to the intentional modification of traits in plants, animals, and even humans, potentially bypassing the slow, random process of natural selection.

2. Selective Breeding: Humans have been selectively breeding plants and animals for thousands of years, but with advancements in DNA technology, this process could become more precise and efficient. Rather than relying on observable traits, scientists could select for specific genetic markers associated with desired traits, potentially leading to the rapid development of new varieties and species.

3. Gene Drives: Gene drives are genetic systems that bias inheritance in sexually reproducing organisms, allowing a particular gene variant to spread rapidly throughout a population. While this technology holds promise for combating diseases and pests, it also raises ethical concerns about its potential ecological impact and unintended consequences.

4. Synthetic Biology: DNA synthesis technologies enable scientists to design and create entirely new DNA sequences, including genes and even entire genomes. This could lead to the creation of organisms with novel traits not found in nature, potentially opening up new avenues for innovation in fields such as medicine, agriculture, and biotechnology.

5. Genetic Engineering for Environmental Adaptation: As climate change continues to alter ecosystems, DNA-based technologies could be used to help organisms adapt more quickly to changing environmental conditions. This might involve introducing genes from other species that confer tolerance to heat, drought, or other stressors.

Overall, while DNA-based technologies offer unprecedented opportunities to shape the course of evolution, they also raise profound ethical questions about the implications of playing such an active role in the genetic destiny of life on Earth. Balancing the potential benefits of these technologies with their potential risks will be a crucial challenge for scientists, policymakers, and society as a whole.

Answer:

c. fermentation of pyruvate into lactate to regenerate NAD+

e. the breakdown of glucose

Explanation:

Fermentation of pyruvate into lactate to form NAD+ to drive glycolysis occurs in absence of oxygen in the cytoplasm. It does not include Kreb's cycle and oxidative phosphorylation of aerobic cellular respiration.

Aerobic respiration starts with glycolysis to split glucose into pyruvate and is followed by Kreb's cycle. Pyruvate enters Kreb's cycle in the form of acetyl CoA and is completely broken down into CO2 and H2O.

Oxidative phosphorylation is responsible for ATP synthesis in mitochondria. The dinucleotides (NADH and FADH2) formed during glycolysis and Kreb's cycle are oxidized by giving their electrons to the terminal electron acceptor oxygen molecule via electron transport chain.

The process reduces oxygen molecules into water and also generates the electrochemical gradients across the inner mitochondrial membrane to drive the ATP synthesis.

ATP synthesis requires a hydrogen ion concentration gradient across the inner mitochondrial membrane, oxidation of dinucleotide molecules, and reduction of oxygen. The breakdown of glucose and fermentation of pyruvate into lactate is not directly involved in ATP synthesis in the mitochondria.

The synthesis of ATP (adenosine triphosphate), which is the main energy currency of the cell, within mitochondria depends on a series of biological processes including glycolysis, the citric acid cycle, and oxidative phosphorylation. However, the processes that are NOT required are 'fermentation of pyruvate into lactate to regenerate NAD⁺' (c) and 'the breakdown of glucose' (e).

ATP synthesis primarily relies on the existence of a hydrogen ion concentration gradient across the inner mitochondrial membrane (a), which is created through the electron transport chain. This process also requires the oxidation of dinucleotide molecules (which are electron carriers such as NADH or FADH₂) (b), and the reduction of oxygen, forming water (d).

The breakdown of glucose is an essential step in glycolysis, which is a preceding step to ATP synthesis inside the mitochondria but is not directly involved in ATP formation within mitochondria. Besides, the fermentation of pyruvate into lactate takes place under anaerobic conditions when the oxygen supply is low, and thus, it is not required for ATP synthesis in mitochondria.

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The  inoculating loop is used as a tool to inoculate microbes on plates. So it is necessary to flame the inoculating loop to destroy any kind of microorganisms that may contaminate ou interfer the culture medium. The fire, together with ethanol, helps to sterilize the loop, allowing it to inoculate a pure culture.

Answer:

The correct answer is option B.

Explanation:

The fatty acids are differentiated into unsaturated and saturated fatty acids on the basis of the double bonds they contain in their composition. If a fatty acid contains no double bond, it is known as saturated fatty acid, on the other hand, the double bond constituting fatty acids are known as unsaturated fatty acids.  

These kinds of fatty acids are abundantly found in animals. An unsaturated fatty acid contains one or more double bonds in their composition. At room temperature, the saturated fatty acids are found in solid form, while unsaturated fatty acids come in liquid form. The number of hydrogen atoms is found more in a saturated fatty acid, in comparison to an unsaturated fatty acid.  

Unsaturated fats are fats that contain at least one double bond in their fatty acid chains, which causes them to be generally liquid at room temperature and to contain fewer hydrogen atoms than saturated fats. They are more commonly found in plants than in animals.

In the context of Biology, unsaturated fats are fats or fatty acids that contain at least one double bond in their fatty acid chains. Therefore, the statement (B) 'They have double bonds in their fatty acid chains' is true of unsaturated fats. This double bond causes the fat molecules to bend, preventing them from packing closely together and making them generally liquid at room temperature, which contradicts statement (C). Unlike saturated fats, which are fully 'saturated' with hydrogen atoms in their molecular structure, unsaturated fats contain fewer hydrogen atoms due to the presence of double bonds, making statement (D) inaccurate. Moreover, unsaturated fats are more commonly found in plants than in animals, refuting statement (A).

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Answer:

Body constantly break downs and repair or rebuild its own cells and tissues which is lead to the need for the protein. In under different conditions like intense physical activity or sickness or injury can also result in requirement of protein as in diet.

All these process to occur one need to consume enough protein. Excessive protein than requirement for cell or body requirement will normally metabolize to produce amino acids and energy.

Thus, the correct answer would be - it will provide essential amino acids for producing different hormones and building and repair cells and tissues and energy.

Answer:

e. bu cv+

Explanation:

The genes bu+/bu and cv+/cv are autosomal and linked --> each homologous chromosome has an allele of both bu+/bu and cv+/cv genes.

The cockroach is heterozygous for both genes, and they are in repulsion.

That means that on one of the homologous chromosomes one of the genes has a dominant allele and the other gene has the recessive allele, and on the other homologous chromosome the alleles are arranged in the opposite way.

In this case, the genotype of the cockroach would be best written as:

The most common gametes will be the parentals, i.e. gametes in which crossing-over between homologous chromosomes did not happen and therefore have the same distribution of alleles as the parental individual.

For those reasons, the most common gametes will be:

The most common gametes produced by this cockroach will be bu⁺ cv and bu , cv⁺. Among the provided options, the set containing these genes is e. bu cv⁺. The correct answer is e. bu cv⁺

To solve this problem, let's first understand what it means for the genes to be in "repulsion" and then determine the most common gametes produced by the cockroach with the genotype bu⁺ bucv⁺ cv.

Key Points:

Linked Genes in Repulsion: When genes are in repulsion, it means that each chromosome in the homologous pair carries one dominant and one recessive allele of the two genes.

Genotype of the Cockroach: bu⁺ bucv⁺ cv

This means the cockroach has one chromosome with bu⁺ cv and another with bucv⁺ .

Chromosome Arrangement:

The chromosomes can be represented as:

One chromosome has bu⁺cv

The other chromosome has bucv⁺

Most Common Gametes:

Since the genes are linked and in repulsion, the most common gametes will be those that reflect the original arrangement of alleles on the chromosomes without recombination. Therefore, the two most common types of gametes will be:

bu⁺ cv

bu , cv⁺

These combinations are produced without crossing over between the linked genes.