Re: plant and human genome


Ask a Geneticist

by Flo Pauli, Stanford University
How true is the saying? The apple does not fall far from the tree.
Please give a comparison of human and plant DNA. A picture of plant and
human DNA sequences would be nice, so that I can see the similarities.


-A curious adult from Utah

URL http://www.thetech.org/genetics/ask.php?id=83

In some ways, the saying is very true. The building blocks and shape of
DNA molecules in humans, plants and every living thing is the same-we
all have the famous A, C, G, and T's. It's the order of these
letters that makes us different.

Some of these A, C, G, and T's code for genes, which in turn code for
proteins. Proteins are the things in our body that do all of the work.
They are involved in activities like digesting food, thinking and
breathing.

Not surprisingly, the proteins that do the same things in plants and
animals have similar DNA sequences. However, even when the proteins are
very similar, when and where in the body they do their job can be very
different.

As you can imagine, the different features of a plant and a human leads
to them having many different genes. There are also many similar
activities between plants and humans.

Some examples are getting energy from food, making new and fixing DNA,
and making new cells by cell division. So it makes sense that the DNA
sequences of the genes that work in these sorts of jobs can be very
similar, as I'll show you later on.

When we think of a banana and a person, it's easy to assume that
their DNA molecules might be different. In fact, the actual structure
of the DNA molecule and how it codes for proteins is the same from
bacteria to yeast to plants and animals.




By artist Darryl Leja



The DNA molecule in plants, humans, and all living things are all the
same shape-like a twisted ladder, or a double helix. The backbone of
the ladder is made up of sugar and phosphate molecules.

Each rung of the ladder is made up of two bases that stick out from the
backbone and pair in the middle (a base pair). The letters A, T, G, and
C represent the names of these bases. The ladder is twisted, forming
the DNA molecule with which we are familiar.

DNA is folded, stored, copied, and used as a blueprint to make proteins
in the same way in all living things. So why are living things so
different? Some of the differences come from the order of A, T, C, and
G's and the proteins for which they code, the time and place these
proteins are made, and the number of chromosomes and genes.

Below is a table with genome size (number of base pairs), number of
chromosomes, and number of genes for several species. As you can see,
there is almost no connection between the size of the genome and the
complexity of a plant or animal.



Species Number of Chromosomes Number of Genes Size of Genome (million
base pairs)
Human 46 ~25,000 3,300
Chicken 78 ~23,000 1,000
Fruit Fly 8 ~14,000 165
Butterfly ~380 unknown 124,900
Wall cress 10 ~25,000 125
Corn 20 ~59,000 2,500
Rice 24 45-56,000 441




Going back to the question of similarities between plants and humans, I
mentioned that plant and animal cells do some of the same things. The
genes involved in these functions have similar sequences in plants and
animals. One of these functions is called cellular respiration.

Cellular respiration is the process that converts sugar and oxygen to
water and carbon dioxide to make energy for the cell (it is why we
eat). A key player in cellular respiration is a group of proteins
called the Cytochrome C Oxidase complex (COX). This complex is made up
of 12 proteins, one of which is called COX6B.





Part of the DNA sequence for COX6B for humans and a type of wall cress
plant called Arabidopsis thaliana is shown here. The bases (A, T, C,
and G) that are the same in both organisms are in red. As you can see,
many of them are the same, but just as many are different.

COX6B has the same job in both plants and humans, but their DNA
sequences are different. The parts that are conserved (marked red) are
probably important for its function and they have remained the same in
the two organisms throughout evolution.

It is amazing that the instructions for almost all living things come
from DNA. Functions that are unique to a plant or animal have unique
proteins, but proteins that do the same things in many organisms have
similar instructions or DNA sequences.






More Information

Corn genome

Arabidopsis genome

Content provided by the Department of Genetics, Stanford University.


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