Derek works in a municipal wastewater treatment plant where he oversees the process of biological treatment. Which stage of municipal wastewater treatment does Derek oversee?

Answer:

The correct answer is PANCREATIC LIPASE.

Explanation:

The three types of food eaten by man are broken down into three different components during digestion. Carbohydrate is broken down to glucose, fat and oil is broken down to fatty acid and glycerol and proteins are broken down to amino acids. Most of these digested products are absorbed at the small intestines.

The presences of triglycerides at the small intestines usually stimulates the secretion of pancreatic lipase enzyme and bile. The bile break down the fat molecule and increase its surface area so that pancreatic lipase will be able to work on it effectively. Thus, triglyceride digestion at the small intestines is facilitated by the enzyme pancreatic lipase.

Triglyceride digestion primarily occurs in the small intestine facilitated by the enzyme pancreatic lipase which breaks them down into two free fatty acids and a monoglyceride. Bile salts also support this process by emulsifying the fats.

The majority of triglyceride digestion happens in the small intestine with the aid of the enzyme called pancreatic lipase. This enzyme is produced by the pancreas and released when food arrives in the small intestine. It then breaks down the triglycerides into two free fatty acids and a monoglyceride, which includes both short-chain (less than 10 to 12 carbons) and long-chain fatty acids. Additionally, the bile salts emulsify the fats which further facilitates this digestive process. The digestion of triglycerides is an important part of lipid metabolism.

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Answer: CAN I GET THE ANSWER CHOICES AND I MAY THINK ITS PATHOGENIC

Explanation:

A gene coding for virulence factors proteins is likely to be found in a genomic island of a pathogenic bacterial strain and not found in a nonpathogenic strain.

Genomic islands are clusters of genes that are present in some strains of a bacterial species but not others. These islands often contain genes that confer an adaptive advantage to the bacteria, such as antibiotic resistance, metabolic capabilities, or pathogenicity. In the context of pathogenic bacterial strains, genomic islands frequently carry genes that encode for virulence factors proteins that enable the bacteria to cause disease in a host organism.

Virulence factors can include a variety of proteins, such as adhesins, which help bacteria attach to host cells; toxins, which can damage host tissues; and enzymes that may help the bacteria evade the host's immune response. The presence of these genes in a pathogenic strain and their absence in a nonpathogenic strain suggests that they play a role in the ability of the pathogenic strain to cause disease.

Therefore, when comparing pathogenic and nonpathogenic strains of bacteria, one would expect to find genes coding for virulence factors in the genomic islands of the pathogenic strain, as these proteins contribute to its ability to infect and harm a host.

Answer:

C) cytoplasmic determinants

Explanation:

Cytoplasmic determinants are special molecules which play a very important role during oocyte maturation, in the female's ovary.

Answer:

The correct answer is - C)

Explanation:

Pattern formation is the development process by which cells are move to acquire different fates and identities depending on their positions inside the embryo. Cytoplasmic determinants are the molecules that help in determining in pattern formation during development.

These molecules decides and ensures the organs and tissues develop in the correct place and orientation.

Thus, the correct answer is C)

Answer:

120

Explanation:

If there is a monohybrid cross that involved genes that obeyed Mendelian inheritance this means that parental generation includes two true breed parents (both homozygous but with different genotype).

If we name the gene with A:

P: AA  x  aa

F1: Aa Aa Aa Aa

F2: AA Aa Aa aa

Half of them will be heterozygous, it means 120.

Answer:

2 pyruvates, 2 ATP, 2 NADH

Explanation:

Glycolysis is the process  in which glucose is broken down to pyruvate in order to produce energy. It occurs in cytosol and it can be divided into two phases: phase that requires energy (two ATP molecules are used)  and phase that produces energy (four ATP molecules together with two NADH are produced).

After the glycolysis, which is the first step in cellular respiration, final products (two pyruvats) are further used. The next steps are: pyruvate oxidation, the citric acid cycle, and oxidative phosphorylation.

Answer:

just combine traits of ur two favortie animals and put it into a punnett square :)

Explanation:

Answer:

Basically explain about how would two different kind of species would react such as an mouse and a hedgehog. Would a offspring mouse/ hedgeho have quills on its back or would it have ever a tail.

Explanation:

ANSWER: Biological biodiversity refers to all the different kinds of life that are obtainable in a particular ecosystem, this include all the plants and animal populations that are found in a particular geographical area.

Biodiversity supports healthy ecosystem because it enhances the productivity and the survival of the ecosystem. For instance, in a situation where there are large number of different plant population in an ecosystem, such population will present variability in genetic make up. If a negative event occur in the ecosystem, it will be possible for some plants to survive. But, in a situation where it is only one type of plant that is obtainable in the ecosystem, it will be quite easy to wipe all of them out at once. For instance, a disease outbreak can easily destroy all the plants.

Answer:B habitat

Explanation:

Answer:

Overall DeltaG = -6.40 kJ/mol

Delta G = 31.6 - 6.4 =25.2 KJ

T = 17 + 273.15 =290.15 K

Delta G = -RT * Ln (K)

25.2 * 10^3 J = -(8.314 J/moles*k)(290.15K) * Ln (K)

So (Delta G)/(-RT) = Ln (K)

Ln K = -10.44643114

Thus k = 2.905 *10^-5

Answer:

Luciferase is an enzyme that belongs to the oxidative enzyme set of some bioluminescence reactions. This phenomenon was discovered by Rafaël Dubois, who detected the emission of light in some living things was nothing more than an enzymatic oxidation, in which luciferase was the catalyst, and luciferin the substrate. This phenomenon was frequently detected in fireflies and in the Pholas dactylus mollusk, and later in Cnidarians (Renilla reniformis), marine copepods (Gaussia princeps), abyssal molluscs (Oplophorus gracilirostris), bacteria, etc.

Explanation:

The biological role of luciferase lies in its quality as a catalyst for some types of bioluminescence. Bioluminescence is a type of chemiluminescence, it consists of the oxidation of luciferin, a luminescent substance, catalyzed by luciferase. Said reaction begins with luciferin whose carboxylic group reacts with the phosphate group of ATP, forming luciferyl adenylate. This molecule is oxidized (a process catalyzed by luciferase), resulting in an intermediate peroxide (luciferase-luciferin-AMP-O2 complex) which, upon releasing a molecule of carbon dioxide, results in a ketoderivative, the oxyluciferin, which is excited, returning to its normal state by releasing a photon of light:

Luciferin + O2 → Peroxidic intermediary (luciferase-luciferin-AMP-O2 complex) → [oxyluciferin] → oxyluciferin → light

Answer:

From food

Explanation:

Food energy is a chemical energy used by humans through the process of cellular respiration. Food contain macromolecules such as lipids, proteins, carbohydrates, water, vitamins, and minerals that are necessary for the human metabolism and they are broken down and used by the series of metabolic steps (glycolysis, Krebs  cycle, electront transport chain and oxidative phosphorilation). Digested macromolecules should be used either as a source of energy or as building blocks for the cell.

At the end of catabolic processes within an organism food energy is transformed into energy usable by the cell-ATP.

Answer:

D. deamination of cytosine to uracil

Explanation:

Hydrolytic DNA damage is usually a consequence of metabolic reactions and the most common example of this type of damage is hydrolysis of cytosine into uracil with the release of ammonia. This damage can be fixed by the cell's DNA repair system:removal of uracil  by an enzyme uracil-DNA glycosylase and consequently generation of an abasic (AP) site.  AP endonucleases recognise AP site and break a phosphodiester bond so that lesion can be replaced with another cytosine.

Final answer:

The depurination process, which removes guanine or adenine from deoxyribose in DNA, is the most common hydrolysis damage in cells, occurring more frequently than deamination of cytosine to uracil.

Explanation:

The most common type of hydrolysis damage in a cell is depurination, which is the spontaneous hydrolytic removal of guanine or adenine from deoxyribose C#1 in a DNA strand. This occurs at a rate of about 5000 instances per cell per day. This type of damage is more frequent than the deamination of cytosine to uracil, which occurs at an estimated 100 instances per cell per day. However, deamination of cytosine is one of the most consequential types of damage because if uncorrected, it can mutate the DNA sequence by changing a C-G pair to a T-A pair. Fortunately, cells have mechanisms to correct this form of damage through repair processes that remove the uracil and replace it with the correct cytosine.

Answer:

A) notocord

Explanation:

Answer:

Notochord

Explanation:

Meristem cells are a group of plant cells capable of division and growth that reside in zones where growth can occur. As undifferentiated cells, they are considered as stem cells in animals given that they are the origin of many of the cells that go on to rapidly differentiate/specialize and form various parts of plant. A collection of meristem cells performing a specific function is called meristem tissue.

Meristems are classified based on their location or position; apical meristem (at the tips), intercalary (in the middle) and lateral (at the sides). Apical meristem is further divided into:

- Protoderm (which differentiates into epidermis)

- Ground meristem ( differentiation gives rise to parenchyma, collenchyma and sclerenchyma)

- Procambium ( differentiation results in the production of vascular tissues of the plant; xylem and phloem)

Notochord is a cartilaginous skeletal rod supporting the body in all embryonic and some chordate animals. Notochords are only found in the phylum Chordata, a group of animals including humans. Hence, notochords is not a structural characteristics of plants and cannot be produced by the meristem cells in plants.

Answer:

Crossing Over

Explanation:

The exchange of homologous chromosomes.

Answer:

C) crossing over

Explanation:

A child can get a chromosome that is totally different from the original chromosomes of both parents through crossing over. During crossing over DNA lengths are swapped between chromosomes. This exchange produces a chromosome that has a different composition from the original two chromosomes.

Agree with snzzyninja (C.) Appetite effect.

Answer:

appetite effect

Explanation:

Edge

Answer:

There are total [tex]336[/tex] butter flies.

Explanation:

Given -

Population [tex]= 300[/tex]

Net growth in population in the next year [tex]= 12[/tex] %

New population [tex]=[/tex] Existing population + (Net growth in population [tex]*[/tex]Existing Population

Substituting the given values in above equation, we get -

New population[tex]= 300 + ( \frac{12}{100} *300)\\= 300 + 36\\= 336\\[/tex]

Hence, there are total [tex]336[/tex] butter flies.

The true statements about Eubacteria are:

A.) Most live as decomposers and heterotrophs.

C.) Certain Eubacteria are responsible for food poisoning.

D.) Eubacteria thrive in extreme environments.

Hope this helps chu

Have a great day

Answer:

Oxygen

Explanation:

Photosynthesis is a process performed by the plants (also some algae and bacteria) in which the energy of sunlight is transformed into chemical energy usable by those plants. Necessary components of this set of reactions are sunlight, water and CO2, while resulting products are glucose and oxygen. Products of photosynthesis are then used in the metabolic processes known as cellular respiration. During the cellular respiration, glucose and oxygen are used for the production of ATP, CO2 and water. Cellular respiration is performed in all living organisms.

Prokaryotes: Single-called with no membrane-bound organelles nor nucleus (bacteria; they have nucleoid).

Eukaryotes: Multicellular with membrane-bound organelles and a nucleus (you and me; we have nucleus)

Hope I helped! :)

~Destiny ^_^

a

Answer:

structure of ATP

The ATP molecule is composed of three components.

The center holds a sugar molecule known as ribose which is the same sugar that forms the basis of RNA.

One side of the sugar has an attachment of a string of phosphate groups which are key to the activity of ATP.

The other side has a base attached to it. This is a group consisting of linked rings of carbon and nitrogen atoms.

The base is adenine.

b

Answer:

During chemiosmosis, a concentration gradient of hydrogen ions is generated between the matrix of the mitochondria and the inter-membrane space.

This gradient is generated because hydrogen ions move from the matrix to the inter membrane space using the energy released by the electrons as they travel through the electron transport chain.

Hydrogen ions diffuse from the inter-membrane space of the mitochondrion to the matrix, through the ATP synthase in the inner mitochondrial membrane.

This diffusion happens due to the above mentioned concentration gradient of hydrogen ions formed between the matrix of the mitochondria and the inter-membrane space.

Kinetic energy released during the movement of hydrogen ions by diffusion is used to phosphorylate ADP, to produce ATP.

c

Answer:

Active Transport

There are four different types of proteins found in cell membranes that can transport molecules across the membrane known as P-class pumps.

In order for active transport to occur, you need ATP.

Such specific pumps include:

Molecular ions will bind to the main site on the protein, and then an ATP will bind to a secondary site in order for movement into and out of the cell. If there is no ATP, then the molecular ions can not go where they are needed.

Anabolic Reactions

Anabolic reactions refer to reactions in which molecules, such as fats, lipids carbohydrates and proteins, are made.

In order to build new molecules, energy is needed to form molecular bonds.

When one of the phosphates on the triphosphate of the molecule gets cleaved off, energy that was needed to form the phosphate bond is released

Therefore, ATP turns into ADP or adenosine diphosphate.

In both cases, viral DNA is integrated into the host DNA for a period of time

Answer:

B) They both eventually cause death of the host.

Explanation:

Viruses do not have their own energy producing system. Thus, viruses can only reproduce or replicate using host energy and reproduce by two methods. These are called the lytic cycle and the lysogenic cycle. In both the cycles, the viruses inject their genetic material into the host cell. In the lysogenic cycle, the viral DNA is integrated into the host DNA, while in the lytic cycle, the viral DNA exists as a separate free floating molecule within the host cell, and it reproduces separately from the host DNA. In both the cases the host cell die.

Answer:

I believe it is a sex cell.

Explanation:

The meiosis process occurs in gametes or sex cells. Therefore, option D is correct.

Meiosis is a specialized type of cell division that occurs in organisms that reproduce sexually. It involves the division of a diploid (2n) cell into four haploid (n) cells, resulting in the production of gametes (sex cells) such as sperm and eggs.

Meiosis consists of two successive divisions, known as meiosis I and meiosis II. The process is characterized by specific stages, including prophase I, metaphase I, anaphase I, telophase I, and cytokinesis, followed by prophase II, metaphase II, anaphase II, telophase II, and cytokinesis.

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B, infrared radiation

The greenhouse gas is the type of gases which adsorbs infrared radiation in thermal range and causes global warming. So, the correct option is B.

A greenhouse gas is defined as a gas which absorbs and emits radiant energy within the thermal infrared range that causes the greenhouse effect. The primary greenhouse gases in Earth's atmosphere are water vapor, carbon dioxide, methane, nitrous oxide, and ozone.

During the day, the sun shines through the atmosphere, heating the Earth's surface while at night, the Earth's surface cools, releasing heat back into the air, where some of the heat is trapped by greenhouse gases in the atmosphere.

Thus, the greenhouse gas is the type of gases which adsorbs infrared radiation in thermal range and causes global warming. So, the correct option is B.

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C. It introduces a premature stop codon

Adenine (A), guanine (G), cytosine (C) are found both in DNA and RNA. Thymine (T) is found only in DNA and uracil (U) is found only in RNA.

The five nitrogenous bases are adenine (A), guanine (G), cytosine (C), thymine (T), and uracil (U). Adenine and guanine are the purines, and they have a double-ring structure with a six-carbon ring fused to a five-carbon ring. Cytosine, thymine and uracil are the pyrimidines, which have only a six-carbon ring structure.

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Answer: Age structure would help scientists determine if the problem exists with young or old dolphins. A.

Explanation:

took the test

Answer: the camel

Explanation:

because of its adaptation to the desert

Answer:

Explanation:

According to Hardy-Weinberg Law, allele frequencies of the population will remain constant through the generation if a population is large, without evolutionary mechanisms acting on it (mutation, natural selection, gene flow, genetic drift), if mating is random. In other words, population is equilibrium (Hardy-Weinberg equilibrium).

Allele frequency describes how often an allele appears in a population. This measure is usually expressed in percentage. Allele frequency can describe the variation that exist within the population. It can be calculated as the number of alleles divided with the total number of gene copies in that population.

Change in allele frequencies over a certain short period of time is defined as microevolution. Mechanisms of evolution that can change allele frequencies through time are mutations, natural selection, genetic drift and gene flow (migrations).

Answer:

B) The birds are unable to get calcium from the soil because the calcium has been leached out by the acid rain

Explanation;

Answer:

I agree, the answer is B

Explanation:

Answer:

The change in PH not only effect the shape of enzymes, but it may also change properties the of substrate so that that substrate cannot control to bind the active site and it cannot undergo catalysis.

In general enzymes have a PH optimum. However this optimum is not same for each enzyme.

Explanation:

For Example; The enzyme pepsin is most active at an acidic PH, Whereas the enzyme trypsin performs best at slightly alkaline PH. the increase or decrease in PH can change the concentration of ion in a solution

Answer:

D

Explanation:

Crude oils, shale,  and natural gas are some of the fossil fuels formed in this way. They are specially formed when vast amounts of algae die and sink to the bottom of the oceans over time and accumulate with sediments. They become buried under vast layers of sediments that apply high pressure. Over time, the high pressure and temperature turn the organic molecules into fossil fuels.