The prokaryotes most likely to be found living in extreme environments such as salt ponds or hot springs are _____. the prokaryotes most likely to be found living in extreme environments such as salt ponds or hot springs are _____. bacteria archaea photoautotrophs gram-positive bacilli

Answer:

1) How is DNA compacted to form a chromosome?

2) How to cells undergo differentiation to form the numerous types of cells in the body?

3) What are some functions for non-coding DNA [e.g. Centromere, telomere, promoter, terminator, silencer, enhancer, introns (alternative splicing)]

Explanation:

1) involves packing of DNA that involves DNA associating with H1, H2a, H2b, H3, H4 histone, scaffolding proteins and link genes)

2) since all somatic cells are genetically identical, differentiation involves silencing certain genes through different chemical signals that the stem cell's environment is in, resulting in certain genes related to its function being expressed while other genes are silenced.

3) non coding sequences although the bulk of DNA, has numerous importsnt roles. ( centromere allow for association of kinetochore proteins to form kinetochore that acts as site of attachment for microfibrils during mitosis or meiosis) (telomere act as sacrificial DNA that prevents erosion of Coding DNA during every round of semi-conservative DNA replication)...

Answer:

Question 1-  who 64 codon is responsible for the formation of all types of protein? who a codon expresses itself to form an amino acid?

Question 2- what is lac operon?

Question 3 - what are the exon and intros in the Hnrna and what are their functions?

Explanation:

Answer 1-  A codon is a group is three nitrogenous bases that together code a specific amino acid.  These base pairs arrange themselves in a new order to code for a new amino acid.

Answer 2-  Lac operon is a regulation unit present in the nucleus, which helps in the regulation of the formation of the protein in the presence of the inducer unit.

Answer 3- exons and introns are the codings and non-coding sequences of the DNA respectively. These introns are removed under the modification setup so that Rna can make protein without any hindrance.

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Answer:

a

Explanation:

on edge

In Investigation A, a physical change occurs in Step 1 when salt is dissolved in water, followed by a chemical change in Step 2 when the solution is heated until only a white solid remains. In Investigation B, sugar dissolving in water (Step 1) is a physical change but the solution thickening and turning brown when heated (Step 2) is a chemical change.

A chemical change occurs when a new substance is formed through a chemical reaction, while a physical change does not involve any substance's identity change, such as changes in state or phase transitions. For Investigation A, when salt is dissolved in water (Step 1), it is a physical change. But when the salt solution is heated until only a solid remains (Step 2), that suggests a new substance has been formed, hence indicating a chemical change.

For Investigation B, the sugar dissolving in water (Step 1) would be a physical change. However, in Step 2, where the sugar solution thickens and turns brown on heating, suggests a change in substance and hence is a chemical change. This brown substance is often referred to as caramel, which has a different composition than the original sugar.

Data from lab investigations, like the examples given with phase transitions and the spontaneous chemical change experiment, serve as the foundational understanding behind these chemical and physical changes.

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Answer:

Inversion

Explanation:

This type of mutation is not as lethal on addition of deletion mutations. This is because it does not cause a frame-shift mutation.  Inversion only reverses the order of nucleotides in a section of a DNA strand and the genes in this regions may produce defective proteins.

Answer:

a. diploid

Explanation:

After the fertilization process between haploid egg cell and haploid sperm cell, diploid zygote is formed. Zygote has two sets of chromosomes (one from each gamete) which means it is diploid. Sporophyte stage of life cycle will develop from diploid zygote. During the life cycle of a plant (or algae) sporophyte phase alternates with a gametophyte phase which is haploid. In both, seed plants and flowering plants sporophyte phase (roots, stem, leves, cones/flowers) is more prominent than gametophyte phase (pollen, embryo sac).

Sporophyte phase produces spores via meiosis that develop into gametophte.

Answer:

C. Standing upright allowed for sightlines over tall grasses and savanna shrubbery

Explanation:

One of the most accepted theories about the development of bipedalism of the hominids is that it was mostly because of the tall grasses and shrubs, so standing upright was providing them with better view. Once the environment changed, and the tropical rainforest was turned into savanna, the hominid ancestors had to adapt in order to survive. Being helpless against the large predators, they needed something in order to be able to detect them from bigger distance so that they can avoid them. The solution seemed to be to be able to see above the tall grasses and shrubs, which meant that they started to use their legs more and more in order to stand up taller. This gradually led to better development of legs for upright standing and walking, also causing changes in the structure of the body, providing the hominids with an adaptation that enabled them to survive in the very dangerous environment.

Answer:

The answer is "C. Standing upright allowed for sightlines over tall grasses and savanna shrubbery"

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Answer:

Option B = Lipids

Explanation:

Lipids include waxes, fats, steroids and oils. These are found in both eukaryotes and prokaryotes. Lipids play important role of energy storage, membrane formation, cell division and protection.

Structure of lipids:

Lipids are made up of triglyceride which are further consist of fatty acids and alcohol glycerol. Because of great diversity more than 10,000 lipids are discovered. Lipids are smaller than the protein.

Example:

Fatty acids are the lipids and act as a building blocks for other kind of lipids. The carboxyl group (-COOH) in fatty acids attached to the carbon chain trough attached hydrogen and make the chain water soluble. There are two kinds of fatty acids saturated and unsaturated. The saturated fatty acid has single bonds and unsaturated fatty acids have double bonds. The unsaturated fatty acids yield oils when combine with triglycerides.

Function of lipids:

Lipids play important role in organism. Some are important roles are given below:

1. They make protective barrier.

2. They take part in the formation of cell wall of plants and cell membrane.

3. They are also act as an energy storage device.

4. They take part in the formation of Golgi apparatus, nuclear envelop and other cellular compartments.

5. They provide the insulation against harsh environment to the vital organs

Answer:

The answer is class and family.

Explanation:

Taxonomic groups are used for biological classification. There are eight main taxonomic groups: domain, kingdom, phylum, class, order, family, genus and species, with the domain as the most inclusive and species as the least inclusive. If we take a look on Mammalia and Hominidae classification, we can assume that Mammalia represents class, and Hominidae represents family:

1. Domain: Eukarya

2. Kingdom: Animalia

3. Phylum: Chordata

4. Class: Mammalia

5. Order: Primates

6. Family: Hominidae

7. Genus: Homo

8. Species: Homo sapiens

Answer:

the answer is class and family

Explanation:

Answer:

the answer is true.

Answer:

Promoter site (region)

Explanation:

RNA polymerase is known to be an enzyme that is involved in the synthesis of RNA from DNA by polymerizing the RNA from the 5’ to 3’ end. The process of RNA transcription from DNA begins at the promoter site (region) which is a designated base sequence that marks the beginning of transcription process on the long DNA strand.

Answer:

HALF LIFE.

Explanation:

The half life of a radioactive element refers to the length of time that is required for the half of the atoms of a particular sample of radioactive element to decay. For instance a radioactive element that a mass of 120 g and a half life of 2 years will be reduce to 60 g in two years. Half life is usually used to measure the rate of disintegration of an unstable isotope. The principle of half life of radioactive elements can be used to determine the relative ages of rocks.  

Answer:

c

Explanation:

A is correct because Gynosperms using female and male cones and Angiosperms use seeds.....Brainliest?

A complicated biological system with many specialized species is a orthogenesis likely to experience a catastrophic crash.

A complex biological system with high biodiversity is less likely to crash, but becomes more vulnerable when disrupted by environmental changes and human-driven extinctions. Population biology is crucial for understanding and conserving such systems.

Complex Biological Systems and Vulnerability to Catastrophic Crashes

A complicated biological system with many specialized species is less likely to experience a catastrophic crash due to its biodiversity. Biodiversity contributes to ecosystem resilience, meaning the ecosystem can better withstand environmental changes and disturbances like climate change, natural disasters, or human-driven extinctions. However, when these systems are compromised, possibly due to environmental stochasticity or human activities, they become more vulnerable to collapses and invasions by generalist and exotic species. Population biology is a key field that helps us understand the dynamics of such systems, and this knowledge is essential for conservation efforts aimed at preventing further harm to our planet's biodiversity.

Environmental stochasticity, such as unpredictable natural catastrophes and the resulting habitat changes, can significantly increase the risk of extinction for species, especially those with restricted ranges. Human activities, such as deforestation and hydraulic fracturing, can exacerbate these risks by causing 'lake burps' or by influencing other factors that lead to population declines. The study of population biology can offer insights into the management and preservation of vulnerable species and systems, aiding in developing

Answer:

Island isolation promotes allopatric speciation.

Explanation:

Allopatric speciation is a form of speciation (creation of new species) that occurs as a result of geographic isolation. This means that a part of population becomes physically separated from the initial main population. There is no gene flow between these two populations and as a result the two populations  reach a high level  of genetic divergence. They can no longer interbreed which means they become two different species (speciation).

New populations evolve as result of mutation, genetic drift and natural selection.

For example, Galapagos finches are isolated from others by the ocean (geographic isolation).  Because of the isolation, the finches don’t breed with one another. So, they developed unique characteristics and became endemic.

Answer:

Its c ,animals ,seed wings and wind

Explanation:

There are mainly 2 ways the seeds of gymnosperms are dispersed :-

Answer:

High elevations and near 60 degrees latitude

Explanation:

The glaciers need special conditions to form. They need very cold and relatively dry climate throughout the whole year. This type of conditions can be found only on the high elevations, and on the high latitudes. Depending on the latitude, the elevation on which a glacier can form goes up or down. The elevation needed at the low latitudes is higher because it is warmer, while on the mid-latitudes and higher latitudes it is lowering because it is colder. The high latitudes provide suitable conditions for glaciers to exist throughout the whole year, as it is either constantly winter, or it is winter for 10-11 months of the year.

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A)Flocking provides aerodynamic efficiency and schooling provides hydrodynamic efficiency.

Answer:

A)

Explanation:

Flocking provides aerodynamic efficiency and schooling provides hydrodynamic efficiency. ... The birds are aerodynamically efficient so they can use the air around them to reduce the energy used to fly.

Temperature range is the factor

Temperature range is the answer

When the frog is submerged in water, they can be closed using a sphincter muscle to stop water from getting into the mouth and therefore the lungs.

Their skin can absorb oxygen dissolved in water when kept moist. Their lungs allow them to breathe more easily when they are on land.

The term “nares” refers to the pair of apertures in the vertebrate nasal cavity (nostrils). Every vertebrate has an opening to the outside world called an external nare, which in some animals is on the nose.

Only air-breathing vertebrates, such as lungfish, have internal nares (also known as choanae), which open into the mouth cavity.

Therefore, By having nostrils above water and in a small spot, all frogs need to keep above water are the nares - helps with camouflage.

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The nares in aquatic organisms are adaptively located to detect scents in water and for some species, to facilitate air breathing while submerged.

The location of the nares in aquatic organisms is a critical adaptation for living in water. The nares, or nostrils, of bony fishes are positioned far forward on the head, enabling them to detect new scents as they move through the water. Evolutions such as the development of internal openings to the nostrils allow some lobe-finned fishes, such as modern lungfishes, to breathe air with the mouth closed. This modification supports survival in aquatic environments where surfacing for air is necessary. Additionally, fish have evolved other adaptations such as a stream-lined body for efficient swimming, gills for extracting oxygen from water, and a swim bladder for buoyancy control. These adaptations altogether enhance the aquatic living capabilities of fish. Adaptations in organisms, such as the production of urea instead of ammonia by lungfishes during drought conditions or the ability of marine iguanas to expel high salt concentrations through sneezing, show the diverse ways organisms have evolved to conserve water and maintain solute balance, which is vitally important in the aquatic environment.

Answer: B

Explanation:

had this in earth and space

Answer:  The floor of an aquatic biome is called the benthic zone.

Explanation:

Benthic zone is called as the floor of an aquatic biome. So, the correct option is A.

The benthic zone is defined as the lowest ecological zone in a water body, usually consisting of sediments on the ocean floor, where these sediments play an important role in providing nutrients for the organisms that live in the benthic zone.

Benthic zone is called as the bottom zone of a water body, fresh or marine where the light penetration is nil. Benthic animals include the polychaetas which live in or on the bottom while the animals that live in or on the bottom of the Bay are called the benthic community.

Despite being hidden, the benthic zone is a crucial component of lake ecosystems. Many aquatic species can breed, forage, and find shelter in this area alone. The shallow coastal waters' benthic zones offer optimum environment for animal and amphibian breeding.

So, the correct option is A.

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Answer:

Morphological (Morphology)

Explanation:

Morphology is a branch of biology dealing with the study of the form and structure of organisms and their specific structural features.

Humans have more than 100 vestigial structures in their bodies. Comparative morpho. is an important tool that helps determine evolutionary relationships between organisms and whether or not they share common ancestors.

However, it is also important evidence for evolution.

Connectedness is defined as, “the state of being joined or linked.” In handwriting, connectedness would be when somebody’s letters are linked together.

Answer: The capital letters and lowercase letters smoothly run together without lifting the pen.

Answer: The capital letters and lowercase letters smoothly run together without lifting the pen.

Explanation:

Handwriting is a neuromuscular task which involves the activity of the brain which thinks what to be written and specifically done by the movement of muscles of hand.

Connectedness in handwriting can be define as continuity in writing which is executed by the continuous pen flow. It is typically observed in cursive writings. In this type of writings the capital and lowercase letters smoothly run together without lifting the pen. Usually the writing is connected by the connecting strokes.

1,000 i think I’m not sure

Answer:

Genotype ratio: 1, 1:1, 1:2:1

Phenotype ratio: 1, 3:1

Explanation:

Single gene pair cross is also known as monohybrid cross. This means that only one gene usually with two alleles is observed and it express one trait.

For example, if we name the gene for a certain trait with A, the possible genotypes are AA (dominant homozygous), aa (recessive homozygous) and Aa (heterozygous). Possible crosses are:

P: AA  x  AA

F1 : all of them are AA

The same is with aa x aa (all of the offspring are with aa genotype)

P: AA  x  Aa

F1: AA Aa AA Aa  (genotype ratio 1:1) (phenotype ratio 3:1)

The same genotype ratio is  in aa x Aa (offspring will have aa Aa aa Aa-(genotype ratio 1:1) (phenotype ratio 1:1)

P: Aa x Aa

F1: AA Aa Aa aa (genotype ratio 1:2:1) (phenotype ratio 3:1)

P: AA x aa

F1: Aa Aa Aa Aa (1)

Final answer:

In genetics, single-gene pair crosses often result in simple Mendelian ratios, such as a 3:1 phenotype ratio and a 1:2:1 genotype ratio in a monohybrid cross with complete dominance. Two-gene interactions can lead to more complex ratios, such as 9:3:3:1 in a dihybrid cross, and are characterized by a phenotypic ratio totaling 16 parts when genes are assorting independently into gametes.

Explanation:

In genetics, when dealing with crosses involving a single gene pair, the typical ratios observed are a result of the modes of inheritance such as complete dominance, incomplete dominance, or co-dominance. For example, in a monohybrid cross of heterozygote parents with complete dominance (Aa x Aa), the expected phenotype ratio for the dominant versus recessive trait is 3:1, and the genotype ratio is 1:2:1 (where the genotypes are AA:Aa:aa). However, in situations involving epistasis or other gene interactions, even when considering a single gene pair, the phenotypic ratios can differ from the expected simple Mendelian ratios.

It's important to differentiate between single-gene crosses and two-gene interactions. A phenotypic ratio that totals 16 is indicative of a two-gene interaction, such as observed in Mendel's dihybrid cross which gives a 9:3:3:1 ratio. However, for a single-gene pair, we typically do not encounter ratios that total 16, unless modified by gene interactions or epistasis.

Answer:

The correct option is A.

Explanation:

Nitrogen is a gas that is present in high quantity in the atmosphere. This gas contribute significantly to the growth and development of plants and that of animals. Nitrogen in the atmosphere usually get incorporated into the soil via lightening and it is typically fixed by nitrogen fixing bacteria. This nitrogen is then used as part of the nutrients that plants need to grow and develop and it is also used in the production of protein in plant parts. Animals use these plants as source of proteins in their diets. Ultimately the waste products derived from protein is return to the soil where they are broken down by decomposers to nitrogen forms that plants can use. Thus, nitrogen increases the production of proteins in plants.

Option A) Nitrogen increases protein production in plants, vital for growth and development, making it crucial in the cycling of energy.

The best explanation for the importance of nitrogen in the cycling of energy and matter is that nitrogen increases protein production in plants (Option A). Nitrogen is a critical macronutrient, essential for the synthesis of proteins, nucleic acids, and chlorophyll. Plants require these compounds for growth and development, and insufficient nitrogen can lead to stunted growth and chlorosis (yellowing of leaves). Atmospheric nitrogen (N₂) is abundant but not directly usable by plants; they rely on nitrogen fixation processes to convert it into biologically available forms like ammonia (NH3). Nitrogen is thus crucial for the primary productivity of plants and the overall health of ecosystems.

Answer:

Nose: Air is inhaled through the nostrils (and sometimes through the mouth) where it is filtered by the hairs and cilia to remove dust particles and moistened. The nasal cavity also moderates the temperature of the inhaled air.

Pharynx: This is a common passage for food, water, and air. It leads from both the nose and the mouth and leads to both the trachea (windpipe) and the oesophagus (foodpipe).

Larynx: This is the voice box situated just over the trachea and has a flap called the epiglottis which closes during swallowing to prevent food from entering the trachea and opens during breathing.

Trachea: Air now enters the windpipe which is situated behind the sternum (breastbone) and between the two lungs.

Bronchus: From the trachea, two bronchi (one bronchus for each lung) enter the lungs and divide and subdivide into secondary and tertiary bronchi, getting narrower as they proceed into the lung.

Bronchioles: The tertiary bronchi branch into fine tubules called bronchioles, the last passageways for air.

Alveoli:. Air ends its pathway in the alveoli (sing. alveolus) which are tiny sacs with very fine singe-celled walls. These alveoli are surrounded by capillaries that connect the pulmonary arteries and veins and that enable transfer of oxygen and carbon dioxide.

The pathway of air through the respiratory system starting with the external nares includes the nose, mouth, larynx, pharynx, lungs, and diaphragm.

The pathway of air through the respiratory system starting with the external nares includes the following structures:

.25

This is because 1/4 = .25

To find the allele frequency, you need to find the decimal representation of the fraction.

For example: If an allele makes up four twentieths of a population's alleles, then the frequency would be .2 (4/20 = .2)

An alternative form of genes that are variant and are responsible for conferring the phenotypic character is called an allele. A single allele gets inherited to the offspring from each parent. The allele can make purebred or heterozygous traits.

The relative frequency is 25%.

A chance or probability of the occurrence of the gene carrying the specific allele in the percentage of a certain population is called relative frequency.

[tex]\begin{aligned} & = \dfrac{1 }{4} \\\\& = 0.25\end{aligned}[/tex]

[tex]\begin{aligned} & =0.25 \times 100\\\\& = 25 \%\end{aligned}[/tex]

Therefore, 25% is the relative frequency.

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Answer:

Electron transport Chain (Oxidative phosphorylation)

Explanation:

Cellular respiration can be defined as the process that involves the breakdown of glucose molecules into CO2 and H2O to generate energy inform of Adenosine Triphosphate (ATP).  Also, cellular respiration usually takes place in the cells of an organism by converting biochemical energy present nutrients into Adenosine Triphosphate. Furthermore, it takes place in three stages which includes: glycolysis, TCA cycle and Electron transport (Oxidative phosphorylation). Thus, oxidative phosphorylation is the final stage of aerobic cellular respiration that produces maximum ATPs.

The oxidative phosphorylation stage of cellular respiration produces the most ATP. This stage utilizes an electron transport system to create an electrochemical gradient, which facilitates the production of ATP. Although other stages also produce ATP, about 90% is made during oxidative phosphorylation.

The stage of cellular respiration that produces the most ATP is the Oxidative Phosphorylation stage. During this stage, NADH and FADH2, made in glycolysis, the transition reaction, and the Krebs cycle, transfer their electrons to an electron transport system (ETS). This series of reactions is facilitated by protein complexes located in the inner membrane of a cell's mitochondria. The energy from the transferred electrons then creates an electrochemical gradient across the membrane, leading to the production of ATP through chemiosmosis, also known as oxidative phosphorylation.

It's important to note that while other phases such as glycolysis and the Krebs cycle also produce ATP, the bulk, about 90%, is generated during oxidative phosphorylation. This makes oxidative phosphorylation the most ATP-rich stage of cellular respiration.

For every oxidized NADH in the electron transport chain (ETC), approximately three ATP are produced, and around two ATP are produced for each oxidized FADH2. Consequently, one glucose molecule that enters the aerobic respiration process can net roughly 36 ATP in total.

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Amino acids specialize in their aspect of production, for instance one type of Amino Acid could code for a specific trait and another codes for another trait and so on. So, Amino Acids specialize in establishing in coding for one part of a gene.

Answer:

The correct answer is D.} 100%

Explanation:

Answer:

100%

Explanation: