martes, 16 de mayo de 2017

P20. MITOSIS

OBJECTIVES

The aim of this practice is to identify the phases of the mitosis in the root of an onion.

MATERIAL 
  • Microscope
  • Slide and coverslide
  • Dropper
  • Watch glass.
  • Beaker
  • Forceps
  • Filter paper
  • Scissors
  • Bunsen burner
  • Lighter.
  • Needles. 
  • Distilled water
  • Orcein A
  • Orcen B
  • Onions
  • Water
PROCEDURE

  • We keep in a glass the bulb of an onion for a few days, the glass must contain water that is in contact with the roots until the roots measure 3mm.
  • Then, we cut the roots and we put them in a watch glass and we add 2mL of Orcein A.
  • Heat the watch glass with the orcein until we see gray vapors.
  • Take the root and put it on the slide and add drops of orcein B. 
  • We place the slide on filter paper, wrapping and tighting it.
  • We cover it with the coverslide and we observe the results on the microscope. 




P19. (EXTRA) ANATOMY OF A LIZARD








P18. YOGURT BACTERIA

OBJECTIVES:


To reveal bacteria that stay in yogurt such as Streptococcus Thermophilus and Lactobacillus Bulgaricus and to know how to do the Gram Stain in order to reveal them.


MATERIAL

  • Crystal violet
  • Ethanol
  • Distilled water
  • Safranin
  • Three beakers
  • Dropper
  • Bunsen burner
  • Lighter
  • Forceps
  • Slide and coverslide
  • Dissection needle
  • Iodine (Lugol)
  • Petri dish



PROCEDURES

Take the dissection needle and burn it in the Bunsen burner and then spread it on the yogurt.
Put the yogurt on a slide, then take a dropper and throw a few drops of Chrystal violet, wait for 1 minute and 30 seconds.  After that clean the slide with some distilled water.
Now do the same with Iodine, throw on it few drops and wait for 1 minute, then clean it with water again.
Wash it well with ethanol.
Now you have to dye the slide with safranin and to put again some water, after that add the coverslide and put it into the microscope. 

RESULTS

QUESTIONS

EXPLANATION OF GRAM STAIN
Gram-positive bacteria have a thicker peptidoglycan (disaccharides and amino acids) cell wall than gram-negative bacteria. The latter contain a layer of lipopolysaccharide (lipids and polysaccharides) as part of their cell wall. When applied to both gram-positive and gram-negative cells, crystal violet and then iodine readily enter the cells. Inside the cells, the crystal violet and iodine combine to form the crystal violet-iodine (CV- I) complex. This complex is larger than the crystal violet molecule that entered the cells and because of its size, it cannot be washed out of the intact peptidoglycan layer of gram-positive cells by alcohol. Consequently, gram-positive cells retain the color of the crystal violet dye. In gram-negative cells, however, the alcohol wash disrupts the outer lipopolysaccharide layer and the CV- I complex is washed out through the thin layer of peptidoglycan . As a result, gram negative cells are colorless until counterstained with safranin, after which they are pink.


OBSERVATION OF G+ OR G- 
The first membrane belongs to Gram + and the second to Gram -.
Resultado de imagen para gram stain 



lunes, 8 de mayo de 2017

P17. CROMATOGRAPHY

OBJECTIVES
  • To know the bases of chromatographic analysis.
  • To learn the procedure for separating the photosynthetic pigments.  
MATERIAL:


  • Test tubes
  • Rack 
  • beakers 250ml
  • mortar
  • funnel
  • petri dish
  • spatula
  • filter paper
  • spinach
  • water
  • and many products quimics




PROCEDURES

  • Wash the spinach and cut them, then dry them.
  • Grind the spinach in a mortar and add 50 ml of ethanol and a small amount of calcium carbonate, which fits at the tip of the spatula.
  • Filter the mixture into a funnel with filter paper.
  • Put a part of the mixture in a Petri dish (3-4 mm high).
  • Put a rectangle of paper for chromatography in form V, and wait for the pigments to be differentiated.


RESULTS


The different pigments that are from bottom to top are:
Beta carotene (red - orange)
Chlorophyll alpha (bluish green)
Chlorophyll beta (bright light green)
Xanthophylls (yellow)


QUESTIONS

Why do we add calcium carbonate?


To avoid the degradation of the pigments.



Which is the colour of every pigment
  • Beta carotene (red - orange)
  • Chlorophyll alpha (bluish green)
  •  Chlorophyll beta (bright light green

For what purpose it does have different colour pigments?

To know the different solubility of photosynthetic pigments in an organic solvent such as ethanol, which is miscible with water.



Why do they separate in the paper? 


When the alcohol is placed with the pigments dissolved by a chromatography paper, the different pigments are separated as the medium is increasingly poorer in ethanol and richer in water.










lunes, 27 de marzo de 2017

P16. WATER DROP

OBJECTIVES:

  • Observe drops of diferents waters (water fishbowl and water of river) 


MATERIAL:



  • Water fishbowl
  • Water river
  • Microspcope
  • dropper
  • slide and coverslide




PROCEDURES: 

1. prepare two samples of different water drops.

2. put the drops slide the cover and copper objects

3. and observe the bacterias, arthropots and protozoans



lunes, 13 de marzo de 2017

P15. PRBB


The group I belonged to had to do the behavior experiment, in which we washed the plates with some water in order to gather the C. elegans. Afterwards we pick them up with a dropper and once they were classified we left them a few minutes so the C. elegans settle.
Then we remove the water and put the C. elegans in a plate with salty water in one side and distilled in the other. If the C. elegans move to the salty water side that means that they smell so they have DAF18, if not they have it silenced.

This is table where we have all the information of the other experiments:



Microscopy
Image
Genetic
Behavior
ADAF18 mutated
8 male100 hermaphrodite


Intestine
NO
Pharynx NO

Short
DAF18 mutated
BGFP+RPF
0 male100 hermaphrodite


Intestine YES


Pharynx YES

Long
DAF18 mutated
CWild
6 male100 hermaphrodite


Intestine NO
Pharynx NO

Long
NO RESULTS
DDAF18 silenced
0 male100 hermaphrodite

Intestine YES

Pharynx YES

Long
DAF18 silenced

lunes, 20 de febrero de 2017

P14. COCA COLA

OBJECTIVES:
  • To know if regular coke and light coke contain reducing sugars.

MATERIAL:
  • regular coke
  • light coke
  • beakers
  • bunsen burner
  • test-tubes
  • test-tubes rack
  • Fehling A
  • Fehling B
  • pipet
  • wighing scales

PROCEDURE:


The first test we did is about to boil the coke and every second spent there will be less and less liquid until the beaker will only contain the sugar of coke. In regular coke should be a 33% of sugar, according to the lalbel. And in light coke should disapper all the liquid.

The second test we did was the Fehling test, in which one we have to add some drops with a pipet of Fehling A and Fehling B (each one with a different pipet) and then warm it up until it changes its color into blue or orange-brown, regular coke should change into orange-brown because it contains sugars. And light coke should change into blue because it doesn't contain sugars.
We boiled the two test-tubes in the coke of the beakers to save time.




domingo, 29 de enero de 2017

P13. MICROSCOPE


OBJECTIVES:

  • Observe and know how to use a microscope

MATERIAL:
  • Microscope
  • Samples 
QUESTIONS:



Imagen relacionada


PHOTOS:













lunes, 16 de enero de 2017

P12. ADN


OBJECTIVES:

  • Extract and watch banana's DNA


MATERIAL:
  • test tubes
  • filter paper
  • funnel
  • 200mL graduated cylinder
  • erlenmeyer flask
  • 250ml beaker
  • spatula
  • pipette
  • microscope
  • soap
  • sodium chloride
  • H2O
  • ethanol 
  • acetic orcein 
  • pineapple juice
  • banana

PROCEDURES: 


1. Weigh 100g of banana, put it on a dish and crush it 

2. In a beaker add 3g of sodium chloride, 100mL of H2O and 10mL of soap. 

3. Add the banana

4. Strain the contentswith a colander in another beaker. With the spatula mix the dissolution.
          
5. Strain it using filter paper. Put funnel in a 200mL graduated cylinder and the paper on a the funnel 

6. With a pipette, put 5mL of the mixture in graduated cylinder and add 1mL of pineapple juice.

7. With another pipette add 6mL of cold ethanol.

8. With a glass spatula remove some filaments and put them in a microscope slide and add a drop of acetic orcein 


QUESTIONS:

1. How do you get rid of the membranes surrounding DNA? by denaturation

2. Why use pineapple juice? use it because it is a good denaturant

3. How to get scattered precipitation of DNA? because the membrane that protects the DNA is destroyed

PHOTOS:




P11. PROPERTIES

OBJECTIVES:
  • watch the properties of milk

MATERIAL:

  • Milk
  • and all the objects of all of PRACTICS
 RESULTS:
LLET
PROVA
RESULTAT
PH
PAPERS DE PH
6-7
PROTEÏNES
BIURET
+
MIDÓ
LUGOL
-
GREIXOS
SUDAN III
+
GLÚCIDS REDUCTORS
FEHLING
+