Developmental biology is studying organisms as they mature.
Its origins come from embryology, and is mostly focused on the control of cell
growth. These cells are found in living organisms, such as plants and animals.
With advances in developmental biology, we can get a better feel for cells and
how they change or evolve over time, as well as how it impacts living bodies.
Developmental biology is a literal term, meaning it's about
searching for development in living things. Development can be found in many
different aspects in general, such as regeneration, metamorphosis, and asexual
reproduction. Plant development starts in vegetative reproduction, embryo as
well as all the roots and flowers. Development can also be found in stem cells
of adult organisms. One example being how plants develop in their embryos which
is a vegetative reproduction.
Different functional cell types that are in development is a
process known as cell differentiation. An example would be neurons or muscle
fibers. These cells create vast amounts of certain proteins for a unique
function, which enables them to be picked up under a microscope. Genes within
these proteins are highly active. This stage is, for the most part, the final
stage of development where several other states come before it.
Regeneration is when the cell grows back a missing piece.
The most common place this occurs is with plants, which continuously grow. This
can happen in the animal kingdom too, with newts being able to regrow their
tail, or frogs being able to regrow a leg.
In total, regeneration is separated into 4 types. Two
examples that can regenerate any part of their body with a single piece are
hydra and planarian worms. They both make cells constantly from stem cells. The
remaining two can only regenerate appendages, and are mostly insects, like the
cricket which can regenerate appendages or amphibians who can regenerate legs.
In embryonic development, the sperm and egg combine to make
a fertilized egg. This is also known as a zygote, and during this time,
separates several times to create a ball of like cells called blastula. These
cell division happen so fast that there can hardly be any cell growth. This is
so the cells from the daughter are half of the size of the mother cells. This
causes the cell to stay mostly the same size.
In the embryotic state, growth happens almost by itself. Every section of the cells has a growth rate which is predetermined by the active genes. Embryos that are free and living do not grow because they have no source of outside food. In contrast, embryos fed by a constant source can grow rapidly, and these changes help in the overall anatomy.
There are many parts to developmental biology. While we
learn more about this, it will help us learn more about genes as well as the
various cell functions being used. Advances in this field will help us learn
more about how other animals link, and how we can use their regenerative powers
to improve mankind.
Developmental biology is the science that investigates how a
variety of interacting processes generate an organism’s heterogeneous shapes,
size, and structural features that arise on the trajectory from embryo to
adult, or more generally throughout a life cycle. It represents an exemplary
area of contemporary experimental biology that focuses on phenomena that have
puzzled natural philosophers and scientists for more than two millennia.
Philosophers of biology have shown interest in developmental biology due to the
potential relevance of development for understanding evolution, the theme of
reductionism in genetic explanations, and via increased attention to the
details of particular research programs, such as stem cell biology.
Developmental biology displays a rich array of material and conceptual
practices that can be analyzed to better understand the scientific reasoning
exhibited in experimental life science. This entry briefly reviews some central
phenomena of ontogeny and then explores four domains that represent some of the
import and promise of conceptual reflection on the epistemology of
developmental biology.
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