Sammy,
I am finding correlations to the chlamydia in there, the spitzenkorper, the sphere form,
and the hyphae form. Those pictures are great. It seems the author did a fine
recording of the study of this.
and , what is very interesting is the comparison to s. cervisceae, the author says
looks entirely like it, at one point.
The spitzenkorper was mentioned early in 1900s as well. And he talks of the prickles
or bristles, makes me think of Sir Thomas Browne's "little haires".
Seems like this has happened before.
I think it did in mid 1800s waned around 1957. That is when the stop
on the studies of n. crassa was implemented after muscular dystrophy, polio, downs,
als were beginning to show effects because the seed was already planted.
This has to do with a protozoan and botany. So the n. crassa studies started up big time
look who is envolved>
mmbr.asm.org/cgi/content/abstract/68/1/1==========================
N. crassa was used like s cerevisceae is used today, as model to represent human body
parts etc, however, I think there is more to this than just models.
In 80s and 90s the restarted the n. crassa studies. So, this tells me here we go again,
creating new diseases, this was part of the plan. The Asimolar Conferences always
had some very interesting people in attendence.
Here is a link that might help uncover this spitzenkorper, or the spore itself and where
it comes from.
I came across this: Kex1 gene. seems related to the s. cerevisceae.
Again, that sup35 that has prions in it.
It talks about a killer toxin in here, but I do not know what was used and
if it was released in environment or used for studies.
================
.... cells in which the KEX1 gene has been disrupted and that was more abundant in cells overexpressing the KEX1 gene. Kex1p was found to be a membrane-associated glycoprotein with N-linked carbohydrate. The N-linked oligosaccharide(s) was modified in a progressive manner after synthesis, causing the glycoprotein to slowly increase in mass to 115 kilodaltons. After a Kex2p-mediated cleavage event at specific pairs of basic amino acids, alpha-factor and K1 killer toxin precursors have COOH-terminal dibasic residue extensions and require a carboxypeptidase B-like enzyme to process the precursors to maturity. A carboxypeptidase activity, with apparent specificity for basic amino acids, was detected in KEX1 cells. Disruption of the KEX1 gene abolished this activity, while overexpression of KEX1 increased it. Our results provide biochemical evidence consistent with earlier genetic work, that KEX1 encodes a serine carboxypeptidase involved in the processing of precursors to secreted mature proteins.:
www.ncbi.nlm.nih.gov/pubmed/2668738]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]
this part I will check into further. Kex1 is from s. cervisceae. and relates to n. crassa.
It seems the spore that forms the protozoan like hyphae extend and grow and then
form more spores, but the original spore is not the same. So, the original spore may
have had other spores mixed in to form the different structures.
========================
repeat from above)
Kex1p was found to be a membrane-associated glycoprotein with N-linked carbohydrate. The N-linked oligosaccharide(s) was modified in a progressive manner after synthesis, causing the glycoprotein to slowly increase in mass to 115 kilodaltons."
==============================
membrane-associated glycoprotein with N-linked carbohydrate.
N=linked oligosaccharides
I do wonder if the oligos am finding in everything like
oligo nuclceotide
oligopolypeptides
oligosaccharides
oligopeptides
oligo etc.
Oligo:
A short polymer of two to twenty nucleotides.
oligonucleotide:
A deoxyribonucleic acid (DNA) or ribonucleic acid (RNA) sequence composed of two or more covalently linked nucleotides.
Oligonucleotides are classified as deoxyribooligonucleotides or ribooligonucleotides. Fragments containing up to 50 nucleotides are generally termed oligonucleotides, and longer fragments are called polynucleotides.A d
eoxyribooligonucleotide consists of a 5-carbon sugar called deoxyribose joined covalently to phosphate at the 5′ and 3′ carbons of this sugar
to form an alternating, unbranched polymer. A ribooligonucleotide consists of a similar repeating structure where the 5-carbon sugar is ribose. Chemically synthesized oligonucleotides of predetermined sequence have proven to be very useful for studying a large number of biochemical processes. In the 1960s, these compounds were used to decipher the genetic code.
Later, chemically prepared deoxyoligonucleotides were joined to form genes for transfer RNAs. Gene synthesis from synthetic deoxyoligonucleotides is now routinely used to prepare genes and modified genes for proteins having potential clinical applications. Oligonucleotides have also been used to diagnose genetic disorders and bacterial or viral infections. See also Nucleic acid.
www.answers.com/topic/oligonucleotide==========================
so an oligosaccharide
seems related to Fructose?
??
======================
any carbohydrate of from three to six units of simple sugars (monosaccharides). A large number of oligosaccharides have been prepared by partially breaking down more complex carbohydrates (polysaccharides). Most of the few naturally occurring oligosaccharides are found in plants. Raffinose, a trisaccharide found in many plants, consists of melibiose (galactose and glucose) and fructose. Another plant trisaccharide is gentianose. Maltotriose, a trisaccharide of glucose, occurs in some plants and in the blood of certain arthropods.
www.britannica.com/EBchecked/topic/427621/oligosaccharide========================================
I am seeing something here from last post,
"found in the blood of certain arthropods"
So, this tells me they are taking genes from plants and putting them
in artificial (gene) products.
Out with the Fructose! this is just one, how many more? Msg, bugs with this stuff
in blood, the "droplets of acidic cellulose" Am thinking from the Rust and Smut
diseases. The teliospores that blow off them. mmmm so close to telomerase.
Are spores now becoming part of the human body? Holy crap. Sounds like it.
thanks...I will pursue this more, because I see our spore right there in that study
years ago. has prickles, hyphae, forms colonies, then the strands, like a membrane
forms around the spores. However, the protozoan form only forms from the
spore, it is not part of the original spore. Those pictures are great in that report.
Skytroll