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madharris

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Need help with the genetics option... if anyone wants to take the time to try and explain them :( :
identify the role of genes in embryonic development


describe the evidence which indicates the presence of ancestral vertebrate homologues in lower animal classes


discuss the evidence available from current research about the evolution of genes and their actions

identify data sources, gather, process and analyse information from secondary sources and use available evidence to assess the evidence that analysis of genes provides for evolutionary relationships
 

Spiritual Being

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Need help with the genetics option... if anyone wants to take the time to try and explain them :( :
identify the role of genes in embryonic development


describe the evidence which indicates the presence of ancestral vertebrate homologues in lower animal classes


discuss the evidence available from current research about the evolution of genes and their actions

identify data sources, gather, process and analyse information from secondary sources and use available evidence to assess the evidence that analysis of genes provides for evolutionary relationships
• Identify the role of genes in embryonic development:
– During the development of the embryo, different cell types are produced in a precise pattern in space and time
– The differences in cells of the embryo results from the expression of different genes – certain genes are switched on or off during development
– The genes that are turned on during embryonic development are influenced by the POSITION of the cells in the embryo
– Chemicals which diffuse into the cells alter gene expression.
– A variety of proteins called activators and repressors combine with different parts of the DNA causing interactions between various proteins and genes. As a result, some are expressed and others are inhibited.
– HOX genes (described later) also play an important part in controlling the development of body shape, structure and organisation of an organism.


• Describe the evidence which indicates the presence of ancestral vertebrate gene homologues in lower animal classes:
– Gene homologues are DNA sequences that are similar in many different species
- In the Drosophila fruit fly, 8 genes were identified that controlled structural development of the body of the fly.
- The physical order of the HOX genes on the chromosome matched the physical order of the body segments of the fly (i.e. the gene controlling the position of the head comes before the gene for the thorax, which is before the gene for the abdomen, etc.)
- Also, when the genes were intentionally mutated, severed structural mutations occurred, such as legs growing out of the fly’s head.
– Using DNA probes that were complementary to the homeobox genes, it was found that the same gene was found in a large range of animals, such as worms, insects, cats, cows and also humans.
– In vertebrates, the number of HOX genes is greater than in invertebrates.
– Invertebrates have HOX genes on only one chromosome, while vertebrates have them on 4 chromosomes; HOX A, B, C and D.
– When the HOX genes from both the insects and the mammals were compared, the following observations were made:
- In both, the physical order of the genes along the chromosome corresponded to the spatial (physical) order of the structure they coded for along the head to tail axis of the embryo
- The base sequence of HOX genes are similar in insects and in mammals.
- If the gene was transferred from insect to mammal, or vice versa, it would do the same job.
– Therefore, the gene was probably inherited from a common ancestor of both vertebrates and invertebrates
– The vertebrates have extra HOX genes possibly due to chromosome duplication or polyploidy along the course of evolution
– Since they have survived a long time without change, they must be very significant.



• Discuss evidence available from current research about the evolution of genes and their actions:
– Recent studies have shown the presence of homeobox genes in most groups of multicellular animals.
– This implies that the genes evolved in an ancestor common to all animals
– When comparing the HOX genes of flies and mammals, not only are they similar in structure, but they also have similar functions.
– DNA sequencing has also revealed an evolutionary progression in the change of DNA of some genes.
– E.G. The genes that code for haemoglobin proteins. Studies of DNA sequences that code for the globin proteins has produced the variety of haemoglobin present in different mammals today. These suggest an evolutionary sequence for the origin of the different globin genes.

• Use available evidence to assess the evidence that analysis of genes provides for evolutionary relationships:
– DNA sequencing has identifies similar genes in different organisms
– E.G. The genes that code for the enzymes of respiration are very similar for every living organism, from bacteria to humans. This suggests that all organisms evolved from a single ancestor, and the gene for respiration first evolved in this common ancestor.
– Also, the study of HOX genes provides evidence for evolution as the genes have remained similar for many organisms, and the function is the same regardless of what organism the gene is placed in.
– The similarity of genes shows relatedness of organisms in relation to evolution, e.g. humans and chimpanzees share 98% of their DNA.





any problems, just tell me
 

dwayne95

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What a lovely post!

I've never fully understood the difference between independent assortment and random segregation. Anybody?
 

Cupcake16XD

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What a lovely post!

I've never fully understood the difference between independent assortment and random segregation. Anybody?
I think:
Random segregation is when the homologous chromosomes separate at random so you can't tell where each will end up (occurs during Anaphase)
Independent assortment is when the distribution of one homologous pair doesn't affect/influence the distribution of other pairs (occurs during Metaphase)
 

Aysce

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What a lovely post!

I've never fully understood the difference between independent assortment and random segregation. Anybody?
Independent assortment - Homologous chromosomes line up in the middle of the equator of the cell during metaphase

Random segregation - Homologous chromosomes split from pairs to go to their gametes/sex cells. For meiosis 2, the chromatids split but same principle.
 

medicore

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Question maybe kinda irrelevant but why was Mendel's work ignored?
1. Inheritance at their time was thought to involve blending of characteristics.
2. Mendel showed that inheritance was not done by blending, and many found this idea difficult to accept.
3. Mendel wasn't a biologist and people didn't think he was qualified.
 

madharris

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Question maybe kinda irrelevant but why was Mendel's work ignored?
It's not irrelevant :p

It was not recognised because:
He was not recognised as a scientist at the time (he was a monk)
He published his findings in scientific journals that only a few people could obtain
It was advanced for the time, so people didn't believe him
 

RishBonjour

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Can someone explain renal dialysis and compare it with kidney?
 

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– People with dysfunctional kidneys are not able to remove wastes such as urea
– They have to undergo renal dialysis to regulate their blood
– The process:
- The blood is extracted from the body from a vein and passed into a dialyser, which is a bundle of hollow fibres made of a partially permeable membrane
- The dialyser is in a solution of dialysing fluid, which has similar concentrations of substances as blood
- The dialyser only allows wastes to pass through, and not blood cells and proteins. In this way it is similar to the filtrations stage of the nephron
- The wastes diffuse into the solution, and it is constantly replaced
- The anti-clotting agent, heparin, is also added to prevent clotting
- The blood is then returned to the body
 

madharris

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Can someone explain renal dialysis and compare it with kidney?
Renal dialysis is a artificial process in which wastes in blood are removed by diffusion across a semi permeable membrane
It's used for people who have impaired kidney function where products of metabolism build up in the body.
Any salt or drug that is a higher concentration in the dialysing fluid than the blood, will diffuse into the blood
It's used for 4-5 hours at a time 3 times a week

Kidney:
Active and passive transport is used throguhout the nephron
Uses a series of nephrons which are selectively permeable
Continuous process
Useful substances are reabsorbed actively by the kidney

Renal Dialysis:
Only passive transport
Uses artificial membranes
Slow process, few times a week
Useful substance will diffures into the blood from dialysing fluid, no reabsorption
 

medicore

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Can someone explain renal dialysis and compare it with kidney?
Renal Dialysis
- Filtration: Mimics the filtration of a normal kidney
- Transport: Machine may be required to pump blood & Only capable of passive transport.
- Hormone Production: Does not replicate kidney's production of hormones.
- Effiency: Slower and less efficient.

Normal Kidney:
- Filtration: Uses pressure filtration in nephrons to excrete urea, water and salts.
- Transport: Heart pumps blood to kidneys & is capable of active transport.
- Hormone Production: Produces: Renin; regulation of blood pressure.
- Efficiency: More efficient.

Hope that helps, but I don't think I named all the differences.

Edit: Wow, so many people did it haha.
 

mike12345678

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Can someone explain renal dialysis and compare it with kidney?
differences
kidney - continual process / dialysis- done few times weekly
kidney - active and passive transport / dialysis- passive transport only

similarities
kidney and dialysis - use of semi permeable membranes
kidney and dialysis - need one more...
 

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