Thursday, October 30, 2008

Plant Cells Helping Animal Cells!

Here’s an article I came across online. Plants may provide the new treatment for cancer according to Stanford Med School!

According to Stanford University School of Medicine, genetically modified tobacco plants can grow antibodies needed for treatment of a common cancer. Doctors can obtain the antibodies and transfer them into a vaccine which could treat B-Cell lymphoma, a type of cancer which occurs in about 16,000 people annually.

Oncologists at Stanford believe this way to be a treatment with no side effects, forcing the body’s own immune system to combat the disease.

Tobacco Plant
Image Courtesy of tobaccotactics.blogspot.com

Growing the vaccine is also possible in animal cells. Yet this vaccine must be personalized, since each person’s antibody is unique. Personalizing vaccines animal cells are time-consuming and very costly. In plants, it is much faster, and only a few plants are needed to produce enough vaccine per patient. Doctors believe that plant grown vaccines might even prompt a stronger response than animal grown ones.

The vaccine has been tested on mice and many human patients, with mixed results. Further study is needed to assert the effectiveness of this treatment, and Stanford doctors hope to test it soon on a larger group of lymphoma patients.



For the full article visit Stanford School of Medecine

Key Differences between Plant and Animal Cells

Plant and animal cells share many similarities, as well as some differences. Each cell is distinct in its structure, and therefore, distinct in its function.

To start off, both plant and animal cells are eukaryotic (have a nucleus). There is a cytoplasm in both which holds the organelles, and a cell membrane which engulfs the gel-like cytoplasm. The cell membrane protects the cell, regulating what can and cannot enter into the cell. Both cells have mitochondrion, which is the energy producer of the cell (you may think of it as the cell’s power plant). Also, both cells contain vacuoles, which are organelles dealing with cell digestion and storing wastes to be exported.


Image courtesy of National Taiwan Science Education Center


The first key difference is that the vacuole in plant cells is much larger than that in animal cells. In addition to the digestive function of vacuoles, plant cells use their vacuoles to store water. When plants are stiff and upright when well-watered, then their vacuoles are filled. Another difference is that plant cells have chloroplasts while animal cells do not. Chloroplasts, rich in chlorophyll, absorb light and conduct photosynthesis, providing the cell with the energy it needs. The energy from photosynthesis then goes to the mitochondrion which manages this energy for various functions (i.e cell division, mobility and nourishment). The third difference is the presence of a cell wall in plant cells, which give the plant the strong skeleton it needs to grow and survive. Cell walls are made of cellulose, a complex sugar. Cell wall strength may vary- large trees have stronger cell walls than a small fern, which is easily moved by wind.

To recap, plant cells have a larger vacuole, chloroplasts, and a cell wall, unlike animal cells. Keep in mind how structure leads to function. Which organelle is responsible for the droopiness of a plant? And why do plants regain their exact same structure when watered? As for animal cells, why do you think they have small vacuoles?



Text adapted from Wisegeek

Friday, October 17, 2008

Welcome message

Cells under a microscope
Image Courtesy Allied Science


Here is a blog I've just started: understandingcells.blogspot.com
Check it out for a simplified explanation about this issue. Many diagrams and videos available very soon!