Genetics & Molecular Biology
Thimios Mitsiadis, Professor for Oral Biology at the University of Zurich, says he has shown that during tooth formation (odontogenesis) if the Jagged2 gene is inactivated, and thus the Notch signaling pathway is interrupted, tooth crowns will be malformed and enamel will be lacking.
Signaling pathways cells react to signals from their environment and one of the most important signaling pathways is the Notch signaling pathway. It is evolutionary conserved to a very high degree and it is involved in the development of all organs and tissues in animal and human embryos.
In a new Cell study, researchers say they have uncovered a new role for an essential cell protein polynucleotide phosphorylase (PNPASE) in shuttling RNA into the mitochondria, the energy-producing 'power plant' of the cell.
The import of nucleus-encoded small RNAs into mitochondria is essential for the replication, transcription and translation of the mitochondrial genome, but the mechanisms that deliver RNA into mitochondria remain poorly understood.
John Mattick, University of Queensland, is one of the leading proponents of the idea that much -- perhaps most
-- of the human genome is functional. He has been making claims along these lines for at least 15 years
, but seems to always present it as a new idea. Readers of this blog may also remember the Dog's Ass Plot
included in one of his publications.
Genes specific to sex change rapidly but there is one sex-specific gene so vital its function has remained unaltered throughout evolution and is found in almost all animals, according to new research from Northwestern University Feinberg School of Medicine.
The gene, called Boule, is responsible for sperm production and they say that Boule appears to be the only gene known to be exclusively required for sperm production from an insect to a mammal.
Can somatic cells be reprogrammed to become pluripotent stem cells? Well, the answer is yes or no, depending on your perspective, and perhaps your definition of what pluripotent stem cells should be.
The cell membrane at first may seem a simple device, but it is in fact a very complex machine. The basic building block is the phospholipid, a set of molecules that have hydrophilic (water loving) heads on one side and a hydrophobic (water hating) tail on the other. Because of this relationship the water loving heads want to be near aqueous environments and the water hating tails like to be near other water hating tails, or fats. Since cells live in aqueous environments, and are filled with aqueous fluids the cell membrane forms two layers with the heads pointing out and the tails pointing towards each other.
Proteins are the workhorses of our existence. These "helmsmen of the cell" are composed of amino acids, whose sequence is already defined by the heritable information in every living being and transport substances, convey messages and carry out vital processes in their role as molecular machines.
The translation of this information during the production of proteins (protein synthesis) is determined by the genetic code and 20 amino acids form the standard set of which proteins are built.
Retinitis pigmentosa are a diverse group of hereditary diseases that lead to incurable blindness and affect two million people worldwide. Though the causes are diverse, the manifestation of the disease is similar: highly sensitive rod photoreceptors, which allow us to see at dusk, die first and the cones that operate during daylight and are responsible for high-resolution color vision follow.
This is what your next doctor's visit will sound like after you get your genome sequenced:
Scientists from the Institute of Biochemistry and Molecular Biology and Collaborative Research Center 746 of the University of Freiburg say they have discovered a new mechanism which plays an essential role in the assembly and growth of mitochondria, the 'power plants' of the cell.
These organelles make energy stored in food ready for use by the cell. The generators in the cellular power plants are biological membranes located inside the mitochondria. Even minute errors in the composition of the inner mitochondrial membrane can lead to severe metabolic derangements, which can have an especially negative impact on the energy-hungry muscle and nerve cells.