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Bio Discussion 3 Your quality of life pt 2

Submitted by cbbailey on Wed, 03/20/2019 - 23:47

The main point i think to take out of this is to not be too focused on what people exactly are labeling as life or not and instead focus on the actual content of the definitions. While I took my approach more broad, one could easily do the opposite with their definition of life and take a narrower approach, as long as we are able to explain what we are talking about. If we find some form of self replicating anything on another planet, it doesn't matter if one definition includes it as life and another excludes it it doesn't change the significance of the discovery and similarly just because something could self replicate and I labeled it as life, doesn't mean it somehow contains all of the qualities that we would find the classical definition of life in biology. In the Video example wit ht he Star Trek cyborg, assuming that they don't self replicate, it wouldn't fall under the definition of life that I proposed. However this would have no influence on the decision on weather it would receive human rights or not since my definition of life has no bearing on intelligence/consciousness/ any other factor that I would argue would be required for rights. As long we are careful to clearly define what we are talking about it doesn't really matter where we draw the line for what we consider life or not

Bio Discussion 3 Your quality of life pt 1

Submitted by cbbailey on Wed, 03/20/2019 - 23:47

After reading these articles my stance on the problem of what we consider life is that we can consider all things that are able to self replicate as a form of life. When we are discussing life the main feature that people look for is the aspect of self replication. This aspect of life is found as too broad and includes things that people would be hesitant to call life. In the "Life is..." paper Carl Woese starts with the concept that life is just "an entity that can make a copy of itself from parts which are far simpler than itself" however later in the interview he goes back on this and questions this when the concept of a robots that could replicate is introduced. This hesitation makes sense since there is a numerous amount of vast differences between human made robot "life" and the life we know from studying our biology. This hesitation however is just from a naming perspective, classifying two things that are so different under the same umbrella. The question is where we decide to place this Umbrella of the term life for what and that determines what will fall under it and it has changed many times over the course of history as we learn more and more about how our world works. As brought up in the "Why life doesn't not really exist" the author points out the fact the living beings are also just a machine, just a much more complex one and therefore life does not actually exist. However there is a  distinction between the human machinery that we have created and the "life" we currently observe and that is the ability for self replication which I why i used it for my cut off point for my definition of life.

 

Phylogenies

Submitted by sditelberg on Wed, 03/20/2019 - 23:13

Regarding the carnivorans, the character #6, tail, has two character states. In this phylogenetic analysis, an elongated tail is the ancestral character state (scored with a 0) and a short tail is the derived character state (scored with a 1). In phylogeny A, a short tail is hypothesized to have evolved after the split between otters and the group of bears, sea lions, walrus, and seals. This proposes that a short tail is the synapomorphy for the monophyletic group of bears, sea lions, walrus, and seals. In phylogeny B, a short tail is hypothesized to have evolved twice. This is an example of homoplasy. For example, a short tail here is a derived trait for the seals, but it is also a shared derived trait for bears, sea lions, and walrus. However, there are a few separate divergences between seals and this group, and the common ancestor is hypothesized to have an elongated tail. In phylogeny C, a short tail is hypothesized to have evolved twice as well, but then lost in one lineage branch. For example, a short tail is a derived trait for the bears, but it also initially evolved as a shared derived trait for the sea lions, walrus, seals, civets, hyenas, and cats taxa. Cats, hyenas, and civets then lost this short tail trait. This is an example of an evolutionary reversal. In phylogeny D, a short tail evolved once in the lineage to include its monophyletic group branching from seals to dogs, but then this trait was lost later in the phylogeny in otters, raccoons, and dogs. This is another example of an evolutionary reversal. Based on this trait and the parsimony principle, phylogeny A is the most likely. The parsimony principle guides us to the evolutionary tree with the fewest character-state changes, and this is the one usually regarded as the best. In phylogeny A, the tail trait only evolved once in the lineage and was not lost at any point.

Internal Self

Submitted by sharrath on Wed, 03/20/2019 - 23:13

Our internal self is constantly fighting with the thoughts and opinions of others in trying to decide how impactful they are. However, sometimes people’s opinions can be beneficial to us(under certain circumstances). The idea here is that, you must recognize that whatever they say is their particular view or judgement. With that recognition, we are able to release ourselves from the belief that their judgement should matter the most. We’ll slowly be able to “free ourselves from fear and we no longer need to look outside for validation”(Formica, Michael J). We only look to others for some sort of validation to help support our self-esteem. A sense of validation from outside sources boosts our self-esteem ultimately “making us feel better as people”(Suval, Lauren). We shouldn’t have to rely on others to help us boost our self esteem, instead we should be completely satisfied with ourselves and not really need one’s intake of words.

Temperature Dependent Sex Determination in Reptiles

Submitted by ncarbone on Wed, 03/20/2019 - 23:02

Some reptiles such as lizards and snake determine their offspring’s sex by chromosomes. However other reptiles like turtles crocodiles and alligators determine their sex based on the environment around them at the time of the egg fertilization. Different environmental temperatures will result in different sexes. A slight change in temperature can result in dramatic differences in determining the offspring. In a given reptile one temperature rang can result in up to 100% reproduction of one sex. In-between temperatures typically result in a mix of sexes. Hormones have a large effect on the temperature sex determination as well. This is due to the enzyme Aromatase which is responsible for converting testosterone into Estrogen. In European pond turtles aromatase activity is low during low temperatures and high during high temperatures. This correlates which the turtles offspring being mainly male during low temperatures and females during high temperatures.

Draft 2/Week 9

Submitted by scasimir on Wed, 03/20/2019 - 22:05

Land birds and waterfowl maintain their directions at night by using the stars as their source of direction. Ornithologists also believe that birds use a geomagnetic map which is a map of horizontal space justs as gravity and barometric pressures and it gives information about vertical space. They also believe that birds use the Earth's magnetic field to orient them. 

Carbon dioxide transport in the blood

Submitted by cslavin on Wed, 03/20/2019 - 21:41

Carbon dioxide can diffuse into the bloods plasma or into the blood stream. 7% of it dissolves into the plasma, 23% binds to hemoglobin, and 70% becomes bicarbonate. When carbon dioxide binds to hemoglobin it changes the shape of hemoglobin preventing it from binding to oxygen. When carbon dioxide in the blood stream reacts with water it forms bicarbonate and hydrogen ions. The hydrogen ions make the blood acidic. When the blood becomes highly acidic, it can disrupt the normal functions of a cell. Therefore, an increase in carbon dioxide in the blood can be dangerous. Carbon dioxide is constantly being filtered out of the body through the lungs. 

Depression Treatments

Submitted by alanhu on Wed, 03/20/2019 - 20:50

Monoamine neurotransmitter agonists are used to treat depression. Monoamineoxidase inhibitors (MAOIs) are use to inhibit enzymes that destroy monoamines. Monoaminesoxidase is an enzyme that destroys monoamine neurotransmitters in the synaptic cleft. So if the receptor was inhibited then neurotransmitters can stay in the synaptic cleft for longer. Tricyclics incresae the norepinephrine and serotonin by blocking reuptake. Reuptake is an ability of the presynaptic cleft to absorb any of the left over neurotransmitters back into the neuron. Having the neurotransmitters stay in the synaptic cleft for longer allows for more chances for the neurotransmitters to bind. Selective serotonin reuptake inhibitors (SSRIs) are used to increase serotonin within the synapse by blocking reuptake. Specifically it blocks the transporter on the presynaptic neuron. 

The Effect of Climate Change on Coral Reefs PP

Submitted by afeltrin on Wed, 03/20/2019 - 18:24

This article discusses the evident problem concerning the effects of climate change on coral reefs. The gradual warming of our climate results in coral bleaching, which proves fatal for coral reefs. Interestingly seen in Figure 2, there’s a drop in temperature from June to September, and then the temperature steadily rises from October to May. This oscillation in temperature change is due to how well-mixed the water column is. In the colder months, the water column is mixed more thoroughly than when compared to the warmer months. After recording temperature measurements and observing occurred bleaching, it was determined that the hopeful fate of the coral reefs depends on climate change and how it is affecting water conditions. This article succeeds in displaying the dire effects that accompany climate change, and how we, as a society, need to come up with a solution as to sustain our ecosystem. Climate change affects numerous animals and organisms—from the polar bears to the coral reefs. Without immediate intervention, future generations may never be able to actually see coral reefs in their natural habitats.

Gene Analysis Methods 1

Submitted by ewinter on Wed, 03/20/2019 - 18:11

The National Center for Biotechnology Information (NCBI) Basic Local Alignment Search Tool (BLAST) was used as a homology-based method.  We performed a Standard Nucleotide BLAST of the RZW genomic DNA using the Highly Similar Sequences (megablast) program in the Expressed Sequence Tags (EST) database for Brachypodium distachyon (taxid: 15368).  All matches with greater than 95% Ident were saved. All of the saved ESTs were imported into the CAP3 software. CAP3 takes these and generated consensus contiguous sequences bases on the overlap between numerous ESTs.  To find a full length cDNA sequence for our gene, we performed a Standard Nucleotide BLAST of the RZW genomic DNA using the Highly Similar Sequences (megablast) program in the Nucleotide Collection (nr/nt) database for Brachypodium distachyon (taxid: 15368).  We found accession number XM_003562897.4, an mRNA sequence that is predicted to code for the Brachypodium distachyon G-type lectin S-receptor-like serine/threonine-protein kinase B120 (LOC100825184). The two contigs were aligned to the cDNA sequence using the NCBI BLAST.

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