We already finished all the topics that need to be covered by Dr.Parameswari. On this week 7, we just discussed our test paper that we did on week 5. She gave the tips on how to understand the questions and how to answer it. On the last test, I admit that some of the questions were tricky and there are a lot of answers that i got wrong. I need to push myself on the next coming test. I love to study about biology but sometimes I lost my focus. About Dr.Parameswari's classes, I found it fine and interesting. At first, i need to adapt with the skill of teaching from her. Dr. Parameswari will not give all the information. She wants her students to find the information and not just waiting for someone else to give it to you. She also encourage all her students to use their critical thinking and not totally depend on the lecture notes. After this, Dr. Nik will continue the lecture on other topics and I would like to say thank you to Dr.Parameswari for all the knowledge that have been given and I also want to apologize if I did something wrong. I hope we can see each other again and I want to make her proud soon.
Tuesday, 18 October 2016
WEEK 6: THE REGULATION OF DEVELOPMENTAL AND DIFFERENTIATION HORMONES
This is the last topic that has been taught by Dr.
Parameswari. In this topic, we have been introduced five main types of hormones
which are auxin, cytokinin, gibberellins, abscisic acid and ethylene. Auxin is
a plant hormone which causes the elongation of cells in shoots and is involved
in regulating plant growth. Cytokinins are a class of plant growth substances
that promote cell division. Next, gibberellins are plant growth hormones that
regulate growth and influence various developmental processes, including stem
elongation, germination, dormancy, flowering, sex expression, enzyme induction
and leaf and fruit senescence. For abscisic acid, it helps in promoting bud
dormancy and the last one is ethylene. Ethylene is the only hormone forms in
gas and it controls fruit ripening, flower wilting and leaf falls. These are
the simple points that I got from this topic.
I have doing a quiz about this topic and I really sad because I got a lower marks. It just a simple question about all these hormones and straight forward questions but I cannot answer it!!! This is all because I did not read the notes first.. hmm..
WEEK 5: POLLINATION AND DEVELOPMENT OF PLANT EMBRYO
On this week, we were introduced more detailed on
the pollination in plants. The structure of plant’s reproductive organs. For
female, it is called ovule that consists of a megasporangium, megaspore and one
or more protective interguments. For male, it is called anther that consists of
microsporangium. Plants will go through either self-pollination or
cross-pollination. If the flower’s structures are separated, it will undergo
cross-pollination and if the structures are together, it will undergo
self-pollination, but even though the structures stay together in the flower,
it can undergo cross-pollination because
the anther is shorter than the stigma so it cannot pass the pollen grains to the
stigma.
Plant embryogenesis is the process that produces a
plant embryo from a fertilized ovule by asymmetric cell division and the
differentiation of undifferentiated
cells into tissues and organs. Plant embryogenesis can be divided into
two which are zygotic embryogenesis and somatic embryogenesis. Zygotic
embryogenesis is a fertilization of female and male gametes results in the
formation of embryo and later the seed. While somatic embryos are formed from
plant cells that are normally not involved in the development of embryos.
The species of flowers can be spread by the agents such as bees and even the winds.
This
is some points that I learned in this topic but of course there are other
important points. To be honest, I really do not like to study about plants. For
me, human’s body is more interesting than plant’s structure but I try to
enhance my interest on plants. I also think that plant studies are difficult
and people who want to further their studies on plants need to have a deeply
passion about plants.
WEEK 4: ENDOSYMBIOSIS THEORY AND DIVISION CYCLE OF PLANT CELL AND TOTIPOTENCY
In the next class on week 4, we went through endosymbiosis theory. from this theory i learned how mitochondria and chloroplast presence in eukaryotic cells. the ancestry of mitochondria and chloroplast are proteobacterium and cyanobacteria.
mitochondria also got its own circular DNA and reproduces independently the cell in which it is found. Chloroplast also contains its own DNA and are able to grow and reproduce independently within the cells of plants and other protista that conduct the complex chemistry in photosynthesis.
mitochondria also got its own circular DNA and reproduces independently the cell in which it is found. Chloroplast also contains its own DNA and are able to grow and reproduce independently within the cells of plants and other protista that conduct the complex chemistry in photosynthesis.
http://www.fossilmuseum.net/Evolution/Endosymbiosis.htm |
For the totipotency in plants, it really caught my attention because before this since in school, i really do not like whatever kind of topics that related to plants. It makes me bored and hardly to pay attention but on this topic I can see the flow of the development in plants from cell and then become callus. Finally it grows into whole plant. From the tissue culture, the plant can undergo either organogenesis or somatic embryogenesis. in organogenesis, the cell will develop become shoot or root first. Then, it grows further become the whole plant. while in somatic embryogenesis, there is no fusion between gametes and the plant is developed from somatic cells. organogenesis can be divided into two which are direct organogenesis and indirect organogenesis. Somatic embryogenesis also can be divided into two. Direct somatic embryogenesis and indirect somatic embryogenesis.
I do not know how come I like this topic but on the other topics that related to plants, I gave a little focus on it. Maybe this topic, I can understand it well but not the others. So I need to give more effort on the other topics as well.
I do not know how come I like this topic but on the other topics that related to plants, I gave a little focus on it. Maybe this topic, I can understand it well but not the others. So I need to give more effort on the other topics as well.
http://www.slideshare.net/avinashsharma40/somatic-embryogenesis-27-march-15-300-pm |
Monday, 17 October 2016
WEEK 3: HISTORY AND EVOLUTION OF LIFE ON EARTH PART II AND PROKARYOTIC CELLS, VIRUS, VIROID,PRION
In this part II of history and evolution of life on
earth, we learned about systematics, taxonomy and classification. Evolution produces
biodiversity of organisms. What is Systematics? Systematics is the study of
biological diversity and its evolution. Taxonomy, a subdivision of systematics
is the science of biological classification- identification, nomenclature and
making into a system. This classification systems help to clarify the
relationship among organisms. It also helps us to remember organisms and their
traits. This system enable us to communicate clearly about the identity of
organisms being studied. If there is no classification system, it will make the
communication between scientists or people who studied in this field become
difficult as there will be miscommunication in order to differentiate one
organism from another species. There are many ways to classify the animals by
seeing their forms, colour, size, chemical structure and genetic make up but
now focus is more on molecular similarities, proteins, DNA and genes. Caralus Linnaeus,
a Swedish botanist was first to develop and publish the first comprehensive and
consistent classification system for both plants and animals. Each species is
given a unique scientific name. For this semester, the syllabus for cell
biology class and microbiology class are almost the same. In microbiology
class, we also learned about taxonomy, classification and so on. What I can
relate to this topic from microbiology class is about the scientific name. From
the scientific names of a microbe, we can know its shape, who is the founder of
the microbe, what kind of nutrient that it gets, and what diseases can be
caused by the microbe. It is really useful and interesting. I got really
excited actually when the first time I knew that we can get those information
from the name of the microbes.
Furthermore, there are 7 taxa which are kingdom,
phylum, class, order, family, genus and species. Next, we learned about
phylogenetics which is the study of evolutionary relationships among and
between species. The relationships usually presented as a phylogenetic tree or
cladogram. Each branch of the cladogram is called as clade. Classic phylogenetics
dealt mainly with physical or morphological features. Modern phylogeny uses
information extracted from genetic material which is mainly DNA and protein
sequences.
Other than that, we studied about prokaryotic cells,
virus, viroid and prions. First of all, we read about the discovery of cell. The
first person who discovered cell was Robert Hooke while looking at a slice of
cork. He described cells as tiny boxes or honey combs. He also thought cells
only existed in plants and fungi. On 1673, Anton van Leeuwenhoek used his hand
microscope to view samples from a pond and discovered single cell organisms. There
are three basic cell theory which are:
1) All living things are made up of cells.
2) The cell is the basic unit of life in all living
things.
3) New cells arise from the pre-existing cells.
After that, there are four additional statements
which are the
cell contains hereditary information which is passed on from cell to cell
during cell division, all
cells are basically the same in chemical composition and metabolic activities, all
basic chemical and physiological functions are carried out inside the cells and cells
activities depends on the activities of subcellular structures within the cell.
I have been learning about prokaryotes and
eukaryotes since in secondary school and the basic about the cells. In the
lecture, I have been introduced more details about the structure of the cells
such as the materials that made up the cell wall, the important to distinguish
between gram positive and negative bacteria, the features of the cell membrane
and the structure of nucleoid region in bacteria. The new things for me are
virus, viroid and prion.
Viruses can be classified according to their genetic,
shape, symmetry of the capsid, presence and absence of envelope and type of the
host. Viruses reproduce in 2 ways, lytic cycle and lysogeny cycle. Lytic cycle
is virus will lysis and rupture the host and distribute its particle. In lysogeny
cyle, the virus will grow together with the host. Then, DNA’s virus enters the
host and integrate the host chromosome. For viroid, it is a small circular RNA
molecules without a protein coat. It infects plant and lead to dramatic
economic losses in agriculture and horticulture worldwide. The last one is
prions. Prion is an infectious agent that is composed primarily of protein.
It propagates
by transmitting a mis-folded protein state. This mis-folded protein can lead to
mad cow disease and Alzheimer.
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