Nicotiana glutinosa and Nicotiana tabacum are two closely related plant species in the Solanaceae family, which also includes tomatoes, potatoes, and peppers.
Both species, Nicotiana glutinosa and Nicotiana tabacum contain the addictive substance nicotine and have been widely cultivated for use in tobacco products. Nicotiana glutinosa, also known as sticky tobacco, is a smaller and more compact plant than N. tabacum, it has sticky glandular hairs on its leaves and stems, which give it its name. This species is native to South America and has traditionally been used for medicinal purposes by indigenous peoples.
Nicotiana tabacum, on the other hand, is a larger plant with broad leaves and a thicker stem, it is the species most commonly used for commercial tobacco production and is believed to have originated in Mexico or Central America. While both species have similar chemical properties and uses, they differ in their physical characteristics and distribution. Understanding the differences between these closely related species can provide insight into their unique roles in human history and culture. Nicotiana glutinosa and Nicotiana tabacum are two closely related plant species in the Solanaceae family, which also includes tomatoes, potatoes, and peppers.
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Some operons have both a positive and negative control mechanism built into the DNA sequence of the operon. That means both an activator protein and a repressor protein are present simultaneously. Consider a system that has both positive and repressible negative controls. a. Describe the four combinations of active or inactive regulatory proteins that could be present at any time in the cell. b. Draw diagrams similar to those in Models 1–3 to show each of the combinations in part a. (Divide the work among group members so that each member is drawing one diagram.) c. Label each of the combinations in part b as "operon on" or "operon off." d. Describe in complete sentences the cellular environment(s) that would turn the operon "on."
Four possible combinations are: (1) active activator and inactive repressor, (2) inactive activator and active repressor, (3) active activator and active repressor, and (4) inactive activator and inactive repressor. The operon would be turned "on" in a cellular environment where the activator is active and the repressor is inactive.
a. The four combinations of active or inactive regulatory proteins that could be present at any time in the cell are:
Activator protein is active, and repressor protein is inactive.Activator protein is inactive, and repressor protein is active.Both activator and repressor proteins are active.Both activator and repressor proteins are inactive.b. Diagrams for each combination are as follows:
Activator protein is active, and repressor protein is inactive.
+-----+
| ACT |
+-----+
|
v
+-----+
| REP |
+-----+
|
v
Operon ON
2. Activator protein is inactive, and repressor protein is active.
+-----+
| REP |
+-----+
|
v
+-----+
| ACT |
+-----+
|
v
Operon OFF
3. Both activator and repressor proteins are active.
+-----+
| ACT |
+-----+
|
v
+-------+
| REP |
+-------+
|
v
Operon OFF
4. Both activator and repressor proteins are inactive.
+-----+
| ACT |
+-----+
|
v
+-------+
| REP |
+-------+
|
v
Operon ON
c. The combinations labeled as "operon on" are combinations 1 and 4. The combinations labeled as "operon off" are combinations 2 and 3.
d. The operon can be turned "on" in a cellular environment where the activator protein is active and the repressor protein is inactive. This could happen in response to a specific signal or condition, such as the presence of a particular molecule or nutrient. The operon can be turned "off" in a cellular environment where the repressor protein is active, either alone or in combination with an inactive activator protein. This could happen in response to a lack of a specific signal or condition, such as a nutrient or growth factor.
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Como seria más probable que una especie de presa se viera afectada si la enfermedad matara a la mayoría de las especiés de depredadores
When most of the predator species gets killed, the effect of prey species would be that they will overgrow resulting in intraspecific competition, eventually leading in their death.
Predator is any species which hunts and feeds upon another species. The species being eaten is called prey. And this symbiotic relation in which one species is benefitted while the other loses is called predation.
Intraspecific competition is phenomenon in which the organisms of a single species fight against each other. This usually happens when there is a scarcity of resources or lack of space in the habitat. The organisms of such species eventually die, some due to loss in competition, and rest due to depletion of resources.
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The given question is in Spanish language, the question in English language is:
How would a prey species be most likely to be affected if the disease killed most predator species?
What is the only known host of the trichomonas vaginalis?
The only known host of Trichomonas vaginalis is humans. This protozoan parasite infects the urogenital tract of both men and women and is transmitted through sexual contact. T. vaginalis can cause trichomoniasis, which is a sexually transmitted infection (STI).
It is estimated that about 3.7 million people in the United States are infected with T. vaginalis, and many of them do not experience any symptoms. However, some people may experience symptoms such as itching, burning, and discharge from the genitals. Trichomoniasis can be easily treated with antibiotics, but it is important to get tested and treated as soon as possible to avoid complications and further spread of the infection. It is also important to practice safe sex by using condoms and getting tested regularly for STIs.
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Blocking the function of cholecystokinin (CCK) would result in: (Select all that)
a. Decreased motility in the stomach. b. The release of bile from the gallbladder. c. All answers are true.
d. The release of pancreatic enzymes into the duodenum.
Cholecystokinin (CCK) does not have a significant effect on stomach motility, so blocking its function would not result in decreased motility in the stomach. Therefore, the correct answer is d) The release of pancreatic enzymes into the duodenum.
Cholecystokinin (CCK) is a hormone produced in the small intestine that plays a role in the digestion and absorption of fats and proteins. CCK is released in response to the presence of fatty acids and amino acids in the small intestine and has several effects on the digestive system. One of the main functions of CCK is to stimulate the release of digestive enzymes from the pancreas. These enzymes, including lipase and proteases, are essential for the breakdown of fats and proteins in the small intestine.
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is there a free version of this website
also i just clicked biology bc it was close to the subject i was looking for yet this website doesn't have it
Answer:
i don't know if there are any other websites like this that are free. i'm currently using a school computer and this website is available and free for me so that's why i use this website.
Explanation:
method used to locate causal variants by investigating co-transmission of disease and markers in pedigrees
Linkage Analysis is a technique used to identify causative variations by looking into the co-transmission of disease and markers in pedigrees.
What techniques are employed in linkage analysis?Linkage analyses can be divided into two main categories: parametric and nonparametric. The typical approach is called parametric linkage analysis. Large pedigrees with a distinct Mendelian inheritance pattern are typically examined, together with a disease model such as dominant, additive, or recessive.
Which genetic variations are suitable for linkage study analysis?Many Mendelian disorders, which are brought on by mutations in a single gene, including Huntington's disease, cystic fibrosis, and early-onset Alzheimer's disease, have successfully been linked to their genetic roots through linkage studies.
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Question:
Match the following terms with their best/ most reasonable descriptions:
Method used to locate causal variants by investigating co- transmission of disease and markers in pedigrees.
Method used to identify markers (that tag causal variants) systematically across the genome.
Method which tests for associations polymorphisms common in the population for common phenotypes, with the hypothesis that the gene tested is a causal variant.
(DNA structure/Function) In PCR, how is the segment of DNA that is to be amplified determined? O A. By the activity of the polymerase B. By the extension of the annealed primers O c. By using primers that flank the target sequence D. By denaturation of the entire genome Reset Selection
c. By using primers that flank the target sequence.
How do you choose which DNA section has to be amplified?In PCR, a section of the genome to be amplified is chosen using short synthetic DNA fragments called primers, and the segment is subsequently amplified through numerous rounds of DNA synthesis.
PCR amplifies DNA in what way?The sample is heated so that the DNA denatures, or separates into two pieces of single-stranded DNA, prior to utilizing PCR to amplify a section of DNA. Following that, an enzyme known as "Taq polymerase" creates or constructs two new DNA strands using the old strands as templates.
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why water are essential fr the plants?
Answer: Water serves as a solvent for the minerals and nutrients that plants absorb through their roots. This allows these nutrients to be transported throughout the plant, providing it with the resources it needs to grow and thrive. Secondly, water is a crucial component of photosynthesis, the process by which plants produce energy from sunlight. Without water, plants cannot produce energy and will eventually die. Thirdly, water helps regulate the temperature of plants, preventing them from overheating in hot conditions.
3. Hydrophobic residues usually appear at the first and fourth positions in the seven-residue repeats of polypeptides that form coiled coils. (a) Why do polar or charged residues usually appear in the remaining five positions? (b) Why is the sequence IQEVERD more likely that the sequence WQEYERD to appear in a coiled coil?
(a)Hydrophobic residues are typically found at the first and fourth positions in coiled coils because they interact with each other through van der Waals forces, which stabilizes the coiled coil structure. However, if hydrophilic (polar or charged) residues were present in these positions, they would disrupt the hydrophobic interactions and destabilize the structure. Therefore, polar or charged residues usually appear in the remaining five positions to allow for interactions between the two coiled-coil helices while avoiding disruption of the hydrophobic interactions at the first and fourth positions.
(b) The sequence IQEVERD is more likely to appear in a coiled coil because it contains a pattern of hydrophobic and polar residues that allows for strong coiled coil formation. Specifically, the sequence contains a hydrophobic residue (Isoleucine) at the first position, followed by a polar residue (Glutamine) and a hydrophobic residue (Valine) at the third and fourth positions, respectively. The remaining positions are occupied by polar or charged residues, which allow for interactions between the two coiled-coil helices while avoiding disruption of the hydrophobic interactions at the first and fourth positions. In contrast, the sequence WQEYERD contains polar residues in both the first and fourth positions, which would likely destabilize the coiled-coil structure.
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please helpp 5 star for the first answer
Answer: Wrote the answer below
Explanation: The result of the 2 purple flowers mating results in 25% of the offspring having the genotype (pp) indicates that this flower is homozygous recessive. The p allele is recessive and 'homo' in homozygous means the same.
This results in the genotype being pp and the phenotype being white.
Phenotype are the physical traits. Genotype is the entire genetic material of an organism.
What do we call the set of genes that is found within the collection of species present in a particular environment?
Group of answer choices: CHOOSE ONE
Pan-genome
Core genome
Metagenome
Transgenome
Pathogenome
Answer:
correct answer is Metagenome
how many reactive sites are on coenzyme A?A. 2B. 5C. 1D. 3E. 2
Coenzyme A (CoA) is a molecule that plays a crucial role in various metabolic pathways in the body. It is composed of several subunits including a nucleotide,
a pantothenic acid, and a thiol group. The thiol group, also known as the reactive site, is the part of CoA that is involved in many biochemical reactions, including the transfer of acetyl groups in the citric acid cycle and the synthesis of fatty acids. Therefore, n the body. It is composed of several subunits including a nucleotide, there is only one reactive site on Coenzyme A, which is the thiol group, and it is responsible for the molecule's ability to carry and transfer acetyl groups between different molecules during metabolic processes.
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cellular example of catabolite repression biology
Cellular example of catabolite repression in biology can be observed in the regulation of the lac operon in E. coli bacteria.
Catabolite repression is a control mechanism in which the presence of a preferred energy source, such as glucose, inhibits the expression of genes related to the metabolism of alternative energy sources. In the case of the lac operon, this system is responsible for the metabolism of lactose when glucose is scarce.When glucose levels are high, cAMP levels decrease, which in turn prevents the activation of the catabolite activator protein (CAP).
CAP is required to initiate the transcription of the lac operon by binding to the promoter region. In the absence of CAP binding, RNA polymerase cannot effectively bind to the promoter, leading to reduced transcription of the genes encoding for lactose metabolism enzymes. Thus, the bacteria prioritize the utilization of glucose over lactose through this catabolite repression mechanism, promoting efficient energy consumption. Cellular example of catabolite repression in biology can be observed in the regulation of the lac operon in E. coli bacteria.
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Food webs and energy transfer mystery activity worksheet
Introduction:
most deep water fish are not considered commercially important, because their flesh lacks protein and has a watery consistency, making them unattractive as a food source. This is partly due to the challenge of finding food in deep water, since there is not much phytoplankton or zooplankton after about 100 m of depth. But in the 1980s, fisherman discovered large populations of orange roughy (Hoplostethus atlanticus) living at depths between 700-1200 meters. The population of orange roughy and other similar fish were concentrated around seamounts (undersea mountains formed by volcanic processes) around Australia and New Zealand. These fish are large, muscular, and have firm flesh with a high concentration of proteins, making them very commercially attractive. But why are these populations thriving in such deep waters? What are they eating?
Clues:
•Primary production at the sea surface above seamounts, where orange roughy are found is approximately 200 g of carbon per square meter per year.
•Compared to the surrounding ocean waters, seamounts, have high biological productivity, and provide habitats for a variety of plants, animals, and microbial species.
•Orange Roughy are typically found in densities that are equivalent to 5 g of carbon per square meter per year.
•Orange Roughy consume approximately 1% of their body weight daily.
•Most photosynthesis in the ocean takes place in the upper 100 m of the water column. A portion of this primary production is consumed by zooplankton. Some zooplankton are consumed by planktivores, and a portion of the planktivores are in turn consumed by carnivores. Each stage is called a trophic level.
•Orange Roughy seed, primarily on small fishes, and squid, which pray on small crustaceans, primarily zooplankton, making them in the fourth trophic level.
•In general, the amount of energy available at a given trophic level is about 1/10 of the energy supplied by the previous trophic level.
Questions:
1. Estimate the amount of food (in grams of carbon per square meter per year) available to the orange roughy populations.
Hint: orange roughy are feeding at the fourth trophic level. So, the amount of food available is the amount provided by primary production, multiplied by 1/10 available from the second trophic level, multiplied by 1/10 available from the third trophic level.
2. Estimate the amount of food required by these populations (in grams of carbon per square meter per year).
Hint: orange roughy, consume 1% of their body weight daily, so in one year they consume 1% times 365 of their body weight. If the density of orange roughy is 5 g of carbon per square meter, then they require (5 g carbon per square meter) times 365%.
3. What are some possible sources of food, other than the primary production in the water directly around the orange roughy?
Hint: seamounts greatly alter current patterns, causing upwellings and circulation cells.
The amount of food available to the orange roughy populations is approximately 2 g of carbon per square meter per year.
Seamounts can play an important role in supporting the food web in deep waters and sustaining the orange roughy populations.
What is the amount of food available to the orange roughy populations?To estimate the amount of food available to the orange roughy populations, we can start with the primary production at the sea surface above seamounts, which is approximately 200 g of carbon per square meter per year.
However, since the orange roughy are feeding at the fourth trophic level, we need to multiply this value by 1/10 available from the second trophic level (zooplankton), and then by another 1/10 available from the third trophic level (planktivores).
Therefore, the amount of food available to the orange roughy populations is approximately 2 g of carbon per square meter per year (200 x 0.1 x 0.1).
To estimate the amount of food required by these populations,
The density of orange roughy is 5 g of carbon per square meter.
If we assume that the average weight of an orange roughy is 1 kg, then the number of orange roughy per square meter is 200 (since 1 kg = 1000 g and 5 g carbon per square meter = 0.005 kg).
Therefore, the amount of food required by these populations is approximately 36.5 g of carbon per square meter per year (5 x 200 x 0.01 x 365).
Seamounts alter current patterns, causing upwellings and circulation cells. These upwellings can bring nutrients from deeper waters to the surface, which can increase primary productivity in the water column. In addition, seamounts can provide habitats for a variety of plants, animals, and microbial species, which can serve as food sources for the orange roughy populations.
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form a hypothesis about photosynthetic activity in leaf cells covered by different colored filters. predict the results of the experiment based on your hypothesis (if/then).
Hypothesis: If leaf cells are covered with different colored filters, then the photosynthetic activity will vary because different colors of light will have different effects on the process of photosynthesis.
Experiment: To test this hypothesis, you can conduct an experiment where you cover leaf cells (e.g., from spinach or another suitable plant) with colored filters such as red, blue, green, and clear (as a control). Measure the rate of photosynthesis by monitoring oxygen production or the rate of carbon dioxide consumption in a controlled environment, keeping all other factors constant (e.g., temperature, carbon dioxide concentration, etc.).
Prediction: Based on the hypothesis, the prediction would be that leaves covered with blue and red filters will show higher photosynthetic activity than those covered with green filters. This is because blue and red light wavelengths are most effective in driving photosynthesis, whereas green light is less effective as plants primarily reflect it, giving them their green color. The clear filter will serve as a control to compare the effects of different colors on photosynthesis rates.
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Population/Quantitative Genetics) Worldwide, about 1/3 of all marriages occur between people who were born fewer than ten miles apart. This is an example of A. natural selection. B. genetic drift. C. nonrandom mating. D. migration
The given scenario is an example of nonrandom mating. Nonrandom mating is a type of mating in which individuals tend to mate with those who are geographically or socially closer to them rather than selecting partners randomly. The correct answer is option C
In this case, people who were born within ten miles of each other are more likely to meet and mate with each other, leading to a higher frequency of marriages between them.
Nonrandom mating can lead to an increase in homozygosity and a deviation from the Hardy-Weinberg equilibrium, affecting the frequency of alleles in the population.
The other options, natural selection, genetic drift, and migration, are different mechanisms of evolution that can also affect the frequency of alleles in a population, but they are not applicable to the given scenario.
Natural selection involves the differential survival and reproduction of individuals with advantageous traits, genetic drift is a random change in allele frequencies due to chance events, and migration involves the movement of individuals between populations. Therefore correct answer is option C
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Young children hear the song and look forward to summer days.
Which of the following would be MOST useful in supporting this statement?
O A. examples of the warmest months of summer
OB. examples of other fun summertime activities
OC. a true story about children who like to eat ice cream
OD. a true story about children enjoying the song
The option that would be MOST useful in supporting this statement is examples of other fun summertime activities.
option B.
How does option B support the statement?Option B would be the most useful in supporting the statement as it provides additional information about the enjoyment of summer days beyond just the song. It suggests that there are other fun summertime activities that young children look forward to, which reinforces the idea that they anticipate and enjoy summer days.
This option provides broader context and strengthens the statement by implying that the children's excitement is not solely dependent on the song, but also extends to other activities associated with summer.
Thus, by providing a broader context of other fun summertime activities, Option B strengthens the statement by implying that children have a positive association with summer as a whole, and not solely dependent on the song. It adds more depth to the statement and provides additional evidence of children's enthusiasm for summer days beyond just the mention of the song.
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Organisms are limited to reproducing only after their own kind by what two things?
Organisms are limited to reproducing only after their own kind by two things: genetics and biology.
Genetics play a crucial role in determining the characteristics of an organism and passing them down to the next generation. The genetic code of an organism is unique and specific to that species, meaning that offspring will inherit traits and characteristics that are similar to those of their parents. Genetic variation can occur through mutations, but these mutations still occur within the boundaries of the species' genetic code.
Biology also plays a role in limiting reproduction between different species. For example, different species may have different mating behaviors, reproductive systems, and anatomies that prevent interbreeding. Even if two species are genetically similar, they may be unable to mate and produce offspring because of these biological differences. This is known as reproductive isolation, and it is an important factor in the evolution and diversification of species.
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Suppose that you are viewing star A at 11:32 PM on September 2. You note where the star is in the sky at this time. Your friend visits you on September 13. At what time should you both look for this star in the same spot in the sky?Explain.
You and your friend should look for star A in the same spot in the sky at 10:48 PM on September 13.
To answer your question about viewing star A in the same spot in the sky, let's consider the following terms: sidereal day, Earth's rotation, and time difference.
1. Sidereal day: A sidereal day is the time it takes for Earth to complete one rotation with respect to the stars, which is approximately 23 hours, 56 minutes, and 4 seconds.
2. Earth's rotation: Earth rotates on its axis, causing stars to appear to move across the sky. Because Earth's rotation is slightly less than 24 hours, stars appear to shift about 4 minutes earlier each day.
3. Time difference: There are 11 days between September 2 and September 13 (13 - 2 = 11).
Now, let's calculate the time you and your friend should look for star A in the same spot in the sky:
Step 1: Multiply the time difference (11 days) by the 4 minutes difference in Earth's rotation for each day: 11 * 4 = 44 minutes.
Step 2: Subtract 44 minutes from the original time of 11:32 PM on September 2: 11:32 PM - 44 minutes = 10:48 PM.
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you are studying life-forms in extreme environments, and you have discovered a mircroorganism with cardiolipin, hopanoids, and ester linkages in the membrame
As a biologist studying life-forms in extreme environments, the discovery of a microorganism with cardiolipin, hopanoids, and ester linkages in the membrane is mycobacteria. For that reason, the correct option is the last.
These unique features suggest that this microorganism has adapted to survive in demanding conditions, such as high temperatures or extreme pH levels. Understanding how microorganisms adapt to their environments is crucial for maintaining biodiversity and understanding the health of our planet.
Microbiology plays a critical role in many fields, including medicine. The ability to observe and study microorganisms under a microscope has led to significant advancements in our understanding of how diseases spread and how to treat them.
Overall, the study of life-forms in extreme environments is essential for understanding the diversity of life and how organisms adapt to their surroundings. The discovery of this microorganism with unique features highlights the importance of continued research in microbiology and the impact it can have on our health and the world around us.
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How is a cepheid Variable star identified?
Pulsates radically with a clear change in Luminosity
It’s luminosity dims as it rotates
It’s being torn apart by tidal forces
It’s brightness appears to change during transit
Penn foster
Answer:
lumious
Explanation:
because it luminiuos
Answer:
Explanation:
A cepheid Variable star is identified by pulsating radically with a clear change in luminosity. These stars have a regular periodicity in their pulsations, which can be used to calculate their luminosity and distance from Earth. This property makes them important tools for measuring distances in astronomy.
Secondary structures called hairpins may form between palindromic sequences in single strands of either RNA or DNA. The fully base‑paired portions of hairpins form helices. How do RNA hairpins differ from DNA hairpins?
a)Helices in RNA hairpins assume a B conformation, whereas helices in DNA hairpins assume a Z conformation.
b)Helices in RNA hairpins are left‑handed, whereas helices in DNA hairpins are right‑handed.
c)Helices in RNA hairpins only contain pyrimidines, whereas helices in DNA hairpins contain only purines.
d)Helices in RNA hairpins assume an A conformation, whereas helices in DNA hairpins generally assume a B conformation.
Helices in RNA hairpins assume an A conformation, whereas helices in DNA hairpins generally assume a B conformation.
The conformation of the helix in RNA and DNA hairpins refers to the arrangement of the sugar-phosphate backbone and the orientation of the bases with respect to the axis of the helix.
The A conformation, also known as the "RNA-like" conformation, is characterized by a more tilted and compressed helix with a wider major groove compared to the B conformation, which is the standard conformation for DNA.
In RNA hairpins, the fully base-paired portions of the hairpin typically assume an A conformation, whereas, in DNA hairpins, the helices generally assume a B conformation. Option (d) is correct.
Option (a) is incorrect because helices in RNA hairpins assume an A conformation, not a B conformation as stated.
Option (b) is incorrect because the handedness of helices in RNA and DNA hairpins is not related to palindromic sequences, but rather to the conformation of the helix, and it can vary in both RNA and DNA hairpins.
Option (c) is incorrect because both RNA and DNA hairpins can contain a mix of pyrimidines and purines in their base-paired regions, and there is no strict rule that helices in RNA hairpins only contain pyrimidines, or that helices in DNA hairpins only contain purines.
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A Medium containing 5g of beef extract, 3g, NaCI, 1g yeast extract, and 1g of glucose is what type of medium? a. Chemically defined/ synthetic b. Complex/non-synthetic c. Good food
A Medium containing 5g of beef extract, 3g, of NaCI, 1g of yeast extract, and 1g of glucose a. Chemically defined/ synthetic type of medium.
A synthetic medium consists of a culture medium made up entirely of recognized chemical substances such as salts and sugars. It can be liquid (broth) or solid by compounds such as agar. Synthetic media are frequently used for autotrophic cultivation and are also useful.
A culture medium caters to a gel or liquid containing nutrients that are used to grow bacteria or microorganisms. It establishes an environment that is solely for microbial growth. Different sorts of cells are cultivated on varied media.
The most common microorganism growth media are nutrient broths with agar plates. Some germs or bacteria require specialized media to grow. Nutrient broths are among the more common microorganism growth media. They are nutrient-rich liquid culture mediums.
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A Medium containing 5g of beef extract, 3g, NaCI, 1g yeast extract, and 1g of glucose is a Complex/non-synthetic medium.
Non-synthetic medium, also known as complex medium, is a type of culture medium used in microbiology that contains nutrients derived from natural sources such as animal or plant products, and whose exact composition may not be known or easily defined. Examples of non-synthetic media include nutrient agar, tryptic soy agar, and blood agar. These types of media are often used to support the growth of a wide variety of microorganisms, including those that may have complex nutritional requirements that cannot be met by synthetic media.
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in the natural selection simulation we set the fitness of rr individuals to 0. why does the r allele persist in the population? what would happen if selection was less extreme?
Answer: A
Explanation:
new world monkeys are group of answer choices all arboreal and some have prehensile tails. generally all the same small body size. all arboreal and diurnal. almost exclusively terrestrial.
New world monkeys are primarily arboreal, meaning they spend most of their time in trees. Some species have prehensile tails, which are adapted to grasp and hold onto branches while moving through the trees.
They are also diurnal, which means they are active during the day. Unlike old world monkeys, they are generally small in body size. However, they are not almost exclusively terrestrial, as they rely on trees for their survival.
New World monkeys are a group of primates that are all arboreal and some have prehensile tails. They are also generally diurnal, meaning they are active during the day. These characteristics set them apart from other primates and allow them to thrive in their forest habitats.
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What is the order that oxygen reaches
the following structures in the
respiratory system, from first to last?
A. nose -> trachea -> pharynx
B. trachea -> nose -> pharynx
C. nose -> pharynx -> trachea
D. pharynx -> trachea -> nose
Answer:
Explanation:
The sequence of air passage during inhalation is as follows:
⇒ Nostrils→pharynx→larynx→trachea→alveoli.
Hi dearest!
what is the cell concentration in original yeast culture that was used to make serial dilutions to imitate the growth of culture
To determine the cell concentration in the original yeast culture, it is necessary to perform a viable count. This involves making serial dilutions of the culture and then plating them onto a growth medium.
This is important to note that the accuracy of the viable count depends on factors such as the efficiency of plating and the ability to distinguish individual colonies.
After incubation, the number of colony-forming units (CFUs) can be counted to determine the cell concentration. The dilution factor used will depend on the expected cell concentration and
the ability to accurately count the CFUs. A common dilution factor for yeast cultures is 10^-6. From this dilution, the CFUs can be counted and used to calculate the cell concentration in the original culture.
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Why can't a female lizard have both high fecundity and high survival? The more energy the female devotes to offspring the less that can be devoted to her survival In only rare cases, do lizards have both hith fecundity and high survival The female is already maximizing the number of she lays and if she attempts to nest later in the season, there will not be enough food for her young Competition for resources prevents this Feesale luzards are able to produce only one set of offspring What is the connection between global latitude (North vs South) and the species-energy hypothesis behind biodiversity? The polar regions receive more light than the other latitudes due to the curvature of the globe. The equator receives the highest concentration of light per unit area. The pattern of movement in the Ferrel cells drives the increased levels of biodiversity The latitudes tilted towards the Sun are able to support the highest amount of biodiversity,
A female lizard cannot have both high fecundity and high survival because the more energy she devotes to producing offspring, the less energy she has available for her survival. The species-energy hypothesis suggests that areas with higher energy availability, such as those closer to the equator, can support greater biodiversity.
A female lizard's resources are limited, and she has to allocate those resources between reproduction and survival. The more energy and resources a female lizard allocates towards producing offspring, the less energy and resources she has for her survival. Therefore, there is a trade-off between high fecundity and high survival in female lizards, and it is difficult for them to achieve both simultaneously.
As for the connection between global latitude and biodiversity, the species-energy hypothesis suggests that areas with higher energy availability, such as those closer to the equator, can support greater biodiversity. This is due to the higher concentration of light per unit area at the equator and the movement of Ferrel cells, which drive increased levels of biodiversity. Therefore, latitudes tilted towards the Sun can support the highest amount of biodiversity.
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A Robertsonian translocation is considered non-reciprocal because _______. A Robertsonian translocation is considered non-reciprocal because _______. an uneven number of gametes is produced in each meiosis the smaller of the two reciprocal products of translocated chromosomes is lost for every viable gamete formed, there are two inviable gametes formed trisomies of chromosome 21 are viable, whereas monosomies of the same chromosome are no
A Robertsonian translocation is considered non-reciprocal because the smaller of the two reciprocal products of translocated chromosomes is lost.
This results in an uneven number of gametes being produced in each meiosis. While trisomies of chromosome 21 are viable, monosomies of the same chromosome are not. In addition to viable gametes, there are two inviable gametes formed in a Robertsonian translocation.
A Robertsonian translocation is considered non-reciprocal because the smaller of the two reciprocal products of translocated chromosomes is lost. This results in an uneven number of gametes produced in each meiosis, and for every viable gamete formed, there are two inviable gametes formed. Additionally, trisomies of chromosome 21 are viable, whereas monosomies of the same chromosome are not.
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these hormones are made by the granulosa cells and corpus luteum: (select all that apply.)
1. FSH
2. Relaxin
3. Progesterone
4. Estrogens
5. GnRH
6. Inhibiin
Granulosa cells and corpus luteum are both structures found in the ovaries of females and play essential roles in the reproductive system. The hormones made by the granulosa cells and corpus luteum include:
Progesterone
Estrogens
Inhibin.
Granulosa cells are somatic cells that surround and support developing egg cells (oocytes) within the ovarian follicles. These cells are located in the follicular wall and communicate with the oocyte through gap junctions. Granulosa cells are responsible for providing essential nutrients, growth factors, and hormones to support the development and maturation of the oocyte.
The corpus luteum is a temporary endocrine structure that forms from the remains of the ovarian follicle after the release of the mature egg during ovulation. It secretes progesterone, a hormone essential for preparing and maintaining the uterus for the potential implantation of a fertilized egg. Progesterone helps to thicken the uterine lining (endometrium) and maintain a suitable environment for embryo development.
Therefore, options 3, 4, and 6 are correct. FSH (option 1), Relaxin (option 2), and GnRH (option 5) are not specifically produced by the granulosa cells and corpus luteum.
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