lunes

Friday June, 4th, 2010

Last Class, we started talking about the body...

We looked that for scientists, the body has many points of view, or "planes"

If we were to look it from the front, and we divide it "vertically" into 2, we would call it "Sagittal PLane" Left + Right

If we were to look it from one side, and we divide it "vertically" into 2, or parts would be "coronal plane "dorsal + ventral"

-dorsal stand for the "back" part, and "ventral" stand for the frontal part of our body

If we were to look it from the front, and we divide it "horzontally" into 2 we would call it "transverse plane" up + down

http://www.yachigusaryu.com/blog/pics/top_ten_principles/10/image003.jpg

After that, we saw many scientific concepts for the location of parts of the body:

locations

distal: far from

closal: clase to

craneal: to the superior part, or "to the crane"

caudal: to the feet

movements

medial: any extremity going to the body's midline

lateral: away from midline

After this concepts and stuff, we started with the skeletal system B)

http://www.dragoart.com/tuts/pics/8/553/how-to-draw-grim-from-the-grim-adventures-of-billy-and-mandy.jpg

We have around 206 bones, and our skeletal system mainly divides into 2 parts.

Axial Skeleton + Appendicular skeleton... ;D

The axial skeleton is conformed by the craneum and the spine, ribs and sternum

The Appendicular skeleton is conformed by Limbs, gidles, and its waht sticks to the axial skeleton.

There are several arrangements or classifications in the bones, there are considered in 4 classes:

Long, Short, Flat, irregular and Sesamoid bones...

The first ones, long bones, are called like that because they are "Long" and one of their characteristics are that they are semi-flexed, to resist pressure. They are mainly find y legs, and arms.

The other ones, the short bones are a bit shorter, and they are mainly founded in foot structures and tarsals, structures of the hand.

Flat bones: Characterized because their "large" area and almost no thickness, for example ribs, sternum, and bones from the craneum...

Irregular bones: With no defined shape, and may function like the other 3 mentioned, for example vertebraes, scapula, heel bone, etc.

Sesamoid bones: This ones, are not officially considered, because of their size, they are like one "sesame seed" and many people have more than others, for example, athletes have more than normal people.

Victor Correa

Monday May 31st

Well last class we saw aneuploidies that is a mutation that ocurrs in a whole chromosome.

But first we need to knowe that the smaller the number of chromosome the bigger it is, and that a monosomy is one less chromosome and trisomy is one extra chromosome.

First we saw down syndrome that its a trisomy in chromosome 21 some symptoms of these disease are the overgrowth of some organs, they are mentally challenged, they have a bigger tongue, shorter neck, mongoloid eyes, just one line across its hand, thay cant have kids but they can live several years, and its the most common trisomy.

http://www.youtube.com/watch?v=ycrPCTP2mFE


Then we saw edwards syndrome that its also a trisomy in chromosome 18 some symtoms of these disease is that they overgrowth their head, they have lots of neurological diseases, they live in average 5 to 15 days, thay have malformations, heart delays, breeathing difficulties, and muscle contractions, and they are legal for abortion.

http://www.youtube.com/watch?v=BVdzIywvE_Y


Then we saw prader-willi syndrome that is a deletion of almost an 80% of the mothers 15 chromosome and these kids are always hungry but it dosent mean that they need to be fat if they receive the correct treatment, they present short neck, short ears, mentally challenged, they have very weak muscles,and they can have a normal regular long life.

http://www.youtube.com/watch?v=91_x7fEzh5o

Then the klinfelter syndrome that deals with sex chromosomes XXY that its a male that in puberty they start presenting secondary women features, but it dosent affect anything healthwise.


http://www.youtube.com/watch?v=coGty5bqs4A

Then we have a very rare syndrome that is called the turner syndrome and they just have an X chromosome and they look like kids all their lives, they dont develop their sexual features, there neck is not completely defined.

http://www.youtube.com/watch?v=JVq8lcCqY-A&feature=channel

Then we have the most shocking syndrome that its the patau syndrome and basically these kids dont survive and maximum they live two days, thay have malformations, 6 to 7 fingers,and sometimes they have ciclod eyes.


http://www.youtube.com/watch?v=W9wUkPYJD5I&feature=related

Then we saw three syndromes first trisomy 22 and these kids dont survive at all cause thay have spontaneous abortions, then the XYY sindrome which we call the super macho and they just have and extra Y chromosome and are a little big taller with no health problems, and XXX syndrome in which nothing happens.


Then we have the angelman syndrome that is a deletion in chromosome 15 they have mental difficulties, they are always smiling and happy, and their father chromosome is deleted, they cant cry.

http://www.youtube.com/watch?v=RHastPSc9XQ
Naneth Lopez

Monday May 17th

Today´s class topic was Nucleic Acids. We already know some things about this topic, since last semester we talk about it.

There are two types of nucleic acids:

-DNA (deoxyribonucleic acid): Formed by 2 strands.

-RNA (ribonucleic acid): Formed by 1 strand.

In DNA the two strands (nucleotides) are joined by hydrocarbons and together with water make them twist, giving the helix form to DNA.

DNA goes through 3 processes: Replication, Transcription and Translation.

This process happens when mitosis happens, because the new cells need of DNA in its nucleus.

In replication what happens is that the helicase gets untwisted and gets separated into 2 strands. When the 2 strands are getting separated small pieces of DNA called primers get stick at the end of hydrocarbons so that the hydrocarbons don´t get back together and form again a double strand. After this, the DNA polymerase this means that then each strand gets a ¨copy¨ and the result are 2 double strands.


http://library.thinkquest.org/C006188/basics/pictures/dna_replication.gif

This is part of a semi conservative model since we can say that the resulting DNA has one part of the ¨parent¨ and the other half is a copy, so, it isn´t completely modified or created.

Next, the transcription process takes place in the nucleus and consists of lots of steps, but here they are simplified:

-Iniciation: When the 2 strands start to open.

-Elongation: When the RNA poly opens.

-Finalization: Ending of transcription.

Even it looks like the words are written wrong, they aren´t this are words scientists commonly use.

In transcription, RNA polymerase is needed so that the DNA can turn into RNA.

Finally, translation is when the RNA turns or is translated into proteins.


Stephanie Sotelo

domingo

Friday may 7th, 2010

In humans, there are 23 pairs of chromosomes, 2 of them determine the sex of the human, “X”, and “Y”. The X chromosome is bigger than Y; the combination of these two will give birth to a boy or girl.
XX= Female
XY= Male

The sperm possessed both X and Y chromosome, while the ovum only the X one, you cannot say that the Male determine the sex of the kid, although it has both X and Y, he cannot control whose going to combine with the other X chromosome, there are some experimental test, which involve “training” of the sperm, so you could manipulate and determine the sex.

(It’s impossible to combine a YY chromosome, because the ovum only possess the X)

Co-Dominance

It is when both alleles are “Dominant”, and both characteristics are shown on. For example:

Blood type.
A is Dominant, B is Dominant, but O is recessive, when A and B combine, you have a AB blood type, but if you combine A or B with O, then you won’t have an O blood type, since is recessive, you need to combine both O, so you get a O blood type:

A

B

A

AA

AB

O

AO

BO

A woman (AB), marries a man with (A; Heterozygous), what is the chance of the baby to have O blood type?

Answer: None, there is a chance of having A: 50%, B: 25% and AB: 25%

A always win over O
B always win over O
A always share over B
O need another O


AB= Universal Receptor; Since it has A and B blood type, you can add A or B blood, and the body will accept this blood since it has information about both types.

O= Universal Donor; O blood type doesn't have any antibodies on the blood, so you can give this blood to A, B and AB, but it isn't always sure, there is still a slim chance of an allergic reaction to this blood type, so it's save as last resort.

Xavier Gomez

April 26th and 30th, 2010

After 3 weeks of vacations we finally return to school, we make a quick feedback about vertebrates, (living organisms with a spinal cord, bones and a skull).

We start with a new topic “Genetics”, what is genetics? It is the science that studies how features are passed down to one generation to another, Gregor Mendel was the first one to discover how genetic works by his study of pea plants, he crossed different types of pea plants and he realized that the results have something very similar with the plant’s parents, “traits”, or “features”, which were a group of characteristics that match with the parents. Mendel used pea plants because of their easy grown of large numbers and easy manipulation, set aside, they posses male and female reproductive organs. He also noticed “allele”, Dominant and recessive, Dominant means that the trait will appear always, and recessive that the trait will appear sometimes only, not in all generations. For example, a long time ago dogs, didn’t have a determine race, so what they did was crossed dogs that have a similar trait, sometimes the result didn’t have the same characteristics as their parents because the allele was recessive, so they keep on crossing until that trait became Dominant.

Mendel used the principle of probability, (chance of a possible event) to understand how genetic works, the chances of the plant to have a tall stem, the chance of the plant of having a different color, etc.

The concept of true breed also comes in here; it means that all future generations will share a certain trait.

Pea plants are self pollinating ;)


-True breed of pea plants
-Seed shape (Round-wrinkled)
-Seed color (Yellow- green)
-Seed coat color (gray-white)
-Podshape (smooth- constricted)
-Pod Color (green-yellow)
-Plant Height (tall-small)
-Flower Position (Axial-terminal)


If both the organism has both alleles (ex: T=brown eyes and t=green eyes) Tt, then the dominant “T”, is the one that will prevail.

Homozygous means that the organism has both of the same alleles (TT or tt)
Heterozygous means that the organism has different alleles (Tt)

T= Tall, t= small

T

t

T

TT=The organism is going to be tall

Tt= The organism is going to be tall

t

Tt= The organism is going to be tall

tt= The organism is going to be small

Example:
If Daniel has Brown Eyes (Heterozygous), and has a baby with a woman with green eyes, what’s the chance of the baby to have green eyes?

Tt tt ß if recessive prevails, it CANNOT be heterozygous (Tt: REMEMBER THAT IT’S JUST NEEDED A DOMINANT FOR LOSING IT’S GREEN EYES)

T= Brown,t= Green

t

t

T

Tt=The baby is going to have brown eyes.

Tt=The baby is going to have brown eyes.

t

tt=The baby is going to have GREEN eyes.

tt=The baby is going to have GREEN eyes.

Answer= 50%

Here’s is a table of some characteristics which are dominant or recessive:

Dominant

Recessive

Freckles

No Freckles

Dimples

No Dimples

Curly Hair

Any other type of hair

Dwarfness

Normal Growth

Free Earlobes

Not free

Role Tongue

Cannot role tongue

Second toe larger

First toe larger



Xavier Gomez

martes

Friday march 12th, 2010

Last class, we talked about spongebob, pokèmon. a bug's life and biology stuff 8)

Mollusca..!
All molusks have like a soft-body that is like jelly-like meat. They have a shell in a specific part of their body.
-There are 7 groups, we're talking about 3 right now...
Gastropods...
In gastropods we can find animals like the snails. They have one single "foot" that they use to move. Regularly, gastropods are herbivores. They have a "radula" that is like a small tongue used to "scrape" rocks to get herbs and get feed.

Bivalva
Bivalva are the animals that have two shells, like clams. They have a muscle that gets both shells, and it can either
close it or open. They have a foot, that is what we see when we open them. Then use it to move or flee from danger.
They have a special "tissue" that they use as a net, or a filter, in which food gets stuck in there, so the bivalve eats.
Shelder and Clampearl can throw water through their foot. I dont know how can they do it, but is SUPER effective versus
the fire types and not -very effecive versus ICE types... ;B

Cephalopoda
These ones have an inner shell. They have their skin, and under the skin they have their shell. For example, the nautilus, the squid. -The squid has its shell in its "forehead" they, under the forehea they have its foot, and then, they have tentacles, used to swim or grab stuff..
The nautilus is seen as the one of the "most" dangerous hunters of the animals, because inside its shell, it has chambers, in which they contain air, and the nautilus can control the pressure inside them, so they can either go up, and down, and they are good preparing traps for preys.



Arthropods
This "phyllum" is the most nomerous in all the eukarya domain.
-We find that they share many characteristics.
*Exoskeleton
*Segmented
*jointed appendages "legs"

SPIDERS AND FRIENDS...
They are called "chelicerates"
-This because the shape of their mouths.
They have 4 pairs of legs and they divide into 2 segments.
Many examples of these ones are spiders, mites, scorpions, Horseshoe crabs
I like the wolf spider

Crustaceans and bff's
they are called decapoda
-They have a carapace, that this is that in a specific part of its "exoskeleton" they have a VERY thick part, like in
lobsters, crabs, etc.
They have a head, 2 antenae and 3 segments, "head, cephalotorax, thorax"

INSECTS AND FELLAS..
these animals hano no branched appendages.
They have jaws and 2 antenae.
*the centipede
*milipede
*Insects..
One of the processes of them is the "molting" is like their "skins"gets too old, and inside of them, they create a new "insect" so when it is time, they can come "out" of their old skin and be the same-other insect..
cool :D
Victor Correa

Monday March 8th, 2010

This class we talked about a particularily interesting kind of animalia, and they were:

· Sponges

· Cnidaria

· Platyhelmynths

· Nematode

· Annelida

Sponges (porifera)

These are nothing like the sponges you see on TV. These are completely still and unmoving, in fact they have calcium in them, so that tells you just how still they are.you may ask yourself, how do they feed then? Well its very simple. They clean water. Water rushes through them and as it does the sponge…does what a sponge does. Absorbs the nutrients it needs.

That’s just one kind of sponge though. The other kind uses flagella. 0.0 This one is not so still. It uses the flagella and spins it in order to make a whirlpool, and force or actually suck the water in.

Cnidaria (jellyfish-anemone)

These have 2 layers of skin, the outside one is used for protection, and the inner one is used for digestion.

Now you may know them as “aguamalas” but those are just one of the different species of jellyfish. Cool thing about these is that they can reproduce both sexually and asexually, one generation does it sexually and the next asexually. This is called alternance of generations. Now about the burns of these,they are caused by “nematocistos”, which are like stingers activated by a nerve when it is stimulated. Even when it dies, the trap set up will still work. Which is cool.

Not much to say about anemone. They are the house of clownfish (nemo), but actually have toxins and other stuff to trap little fish. They are stuck on the ground but can move their tentacles in order to trap its prey.

Platyhelmynths (flat worms)

These are the first to have a cephalic region, which is considered a head, a group of nerve cells.

They also have bilateral symmetry, which means they have a left and a right and a top and bottom…although they poop through their mouth.

They are turbellarians, meaning they eat microalgae

These also happen to have blood

And finally, with these come the famous tapeworms (cestoda)

Nematoda (roundworms)

These are nonsegmented worms

They are parasytic, meaning they need a host to get their nutrients from and live, they also do elephantiasis, which means they get inside of you to get what they need. These have a separate mouth and anus, which is a relief for them I imagine.

Annelida (leeches)

The last but not least are the annelid, which are divided in three different groups:

Oigochaceae, hirudinea and polychaetae

Oigocahetae consists of earth worms

Hirunidea, my preferred kind, consist of leeches…woot!, which are obviously parasitic. They can only live in fresh water though

And finally come polychaetae, which are made up of lots of chaetae, duh. These are rings, used to make the worm advance and move by contracting and expanding over and over again.

Fernando Lopez Almada