Does each bacterium have a separate ‘I’ identity? Can it react or
deviate or modify a DNA?
A bacterium (plural: bacteria) is a type of single-celled microorganism
that belongs to the domain Bacteria. Bacteria are microscopic and are found
in almost every environment on Earth, including soil, water, air, and
living organisms. They can be beneficial, neutral, or harmful to other
organisms, including humans. Bacteria are prokaryotic cells, meaning they
lack a membrane-bound nucleus and other membrane-bound organelles found in
eukaryotic cells (like those of plants and animals). Instead, their genetic
material (DNA) is located in a region called the nucleoid. Bacteria can be
aerobic (require oxygen for metabolism) or anaerobic (can live without
oxygen). They obtain energy either through photosynthesis (using sunlight)
or by breaking down organic or inorganic compounds. Bacteria reproduce
through a process called binary fission, where one cell divides into two
daughter cells. This rapid reproduction rate allows bacteria to adapt
quickly to changing environments and contributes to their evolutionary
success. These pathogenic bacteria produce toxins or invade host tissues,
leading to infections. Bacteria have numerous industrial applications,
including in food production (e.g., yogurt, cheese), biotechnology (e.g.,
genetic engineering, pharmaceutical production), and environmental cleanup
(bioremediation).
Bacteria, like all living organisms, store their genetic
information in DNA (deoxyribonucleic acid). DNA in bacteria is usually a
single, circular chromosome located in the nucleoid region of the
cell. Bacteria
reproduce through a process called binary fission, where one cell divides
into two daughter cells. This rapid reproduction rate allows bacteria to
adapt quickly to changing environments and contributes to their
evolutionary success. Bacteria replicate their DNA prior to cell division
through a process called DNA replication. This ensures that each daughter
cell receives a copy of the genetic material. DNA in bacteria encodes genes
that are transcribed into messenger RNA (mRNA). These mRNA molecules are
then translated into proteins, which perform various functions within the
bacterial cell. Bacteria can undergo mutations in their DNA, which are
changes in the nucleotide sequence. Mutations can occur spontaneously or
can be induced by external factors such as radiation or chemicals. These
mutations can lead to genetic variation within bacterial populations, which
is important for evolution and adaptation. {That is DNA will mutate as
copy; also, the copy of the DNA in the bacteria of that kind of DNA, will
also mutate as 2 daughters, so will keep the copy of the DNA it belongs
to.} That mutation of that bacteria in that DNA is natural or unnatural due
to RADIATION OR CHEMICALS. So Sri YMji is trying to tell, bacteria cannot
see what kind of mutation it can cause since even before the bacteria
think (if it may) outside changes in nature, would cause an unknown
mutation and the consequences are researchable only or may be too bad. Thus
even though only the DNA may alter the bacteria and not vice versa, because
of mutations of DMA in the bacteria, which is only a copy of the original
from DNA, will transmit to whole generations to change as villains.
However, what is an unwritten law is ……
Uncertainty principle, statement, articulated (1927) by the
German physicist Werner Heisenberg, that the position and the velocity of
an object cannot both be measured exactly, at the same time, even in
theory. The very concepts of exact position and exact velocity together, in
fact, have no meaning in nature. Ordinary experience provides no clue of
this principle. It is easy to measure both the position and the velocity
of, say, an automobile, because the uncertainties implied by this principle
for ordinary objects are too small to be observed. The complete rule
stipulates that the product of the uncertainties in position and velocity
is equal to or greater than a tiny physical quantity, or constant (h/(4π),
where h is Planck’s constant, or about 6.6 × 10−34 joule-second). Only for
the exceedingly small masses of atoms and subatomic particles does the
product of the uncertainties become significant.Any attempt to measure
precisely the velocity of a subatomic particle, such as an electron, will
knock it about in an unpredictable way, so that a simultaneous measurement
of its position has no validity. This result has nothing to do with
inadequacies in the measuring instruments, the technique, or the observer;
it arises out of the intimate connection in nature between particles and
waves in the realm of subatomic dimensions.
*The uncertainty principle arises from the wave-particle
duality. *Every particle has a wave associated with it; each particle
actually exhibits wavelike behaviour. The particle is most likely to be
found in those places where the undulations of the wave are greatest, or
most intense. The more intense the undulations of the associated wave
become, however, the more ill-defined becomes the wavelength, which in turn
determines the momentum of the particle. So a strictly localized wave has
an indeterminate wavelength; its associated particle, while having a
definite position, has no certain velocity. A particle wave having a
well-defined wavelength, on the other hand, is spread out; the associated
particle, while having a rather precise velocity, may be almost anywhere. A
quite accurate measurement of one observable involves a relatively large
uncertainty in the measurement of the other.
The uncertainty principle is alternatively expressed in terms of a
particle’s momentum and position. The momentum of a particle is equal to
the product of its mass times its velocity. (m=M*v) Thus, the product of
the uncertainties in the momentum and the position of a particle equals
h/(4π) or more. The principle applies to other related (conjugate) pairs of
observables, such as energy and time: the product of the uncertainty in an
energy measurement and the uncertainty in the time interval during which
the measurement is made also equals h/(4π) or more. The same relation
holds, for an unstable atom or nucleus, between the uncertainty in the
quantity of energy radiated and the uncertainty in the lifetime of the
unstable system as it makes a transition to a more stable state.
So, bane or boon is a mark of uncertainty as wave mutations
may jump. And the nature holds a remedy to ratify the losses too; a fire
accident Californian research shows that ,
“Changes to disturbance regimes, especially grazing abandonment,
altered temporal dynamics, shifting patterns from stable compositional
change and fluctuation to directional change. Livestock exclusion can
change species composition in many types of grasslands, and is often
associated with a decline in species richness , or directional change in
composition . Directional change was not affected by the prescribed burn,
possibly because the burn was a low intensity fire conducted during a
single year. The timing of the burn also makes directional change more
difficult to detect in burned plots than in plots where grazing was removed
because there are larger numbers of pairs of years in the pre-treatment
period, when directional change is not expected to have occurred.
Therefore, it is possible that some directional change did occur that we
did not detect. However, in California, a reduction in the abundance of
grasses in the months following a fire is common, but is rarely sustained
beyond the first year . Fire did increase temporal fluctuation in burned
plots compared to plots with continuous grazing. This could have occurred
via interactions with grazing Fire that can attract livestock in the
post-burn period, and because livestock grazing is asynchronous in space
and time, selection of burned patches in one year could lead to
compositional changes that do not persist unless livestock return to the
same plot in subsequent years.
It has been found evidence that temporal dynamics are driven in part by
variation in how different functional groups respond to external drivers,
suggesting that environmental filtering shifts the local species pool at a
plot, producing sets of species that do not change in the same way over
time. Other community assembly drivers can also influence the species pool
at a plot. For example, demographic stochasticity, priority effects, and
dispersal barriers can all influence the subset of species present at a
plot, irrespective of abiotic characteristics. However, while these
mechanisms are likely to influence the presence of a single species, it is
unlikely that they would influence the functional composition of entire
groups of species such as all forbs or all perennials.
Thus, the functional differences between plots during the pre-treatment
period are much more likely to be driven by environmental filtering than by
other community assembly mechanisms. Forbs have lower overall abundance,
but account for much of the species’ richness whereas grasses are dominant,
fluctuate in abundance at a plot from year to year, and account for less of
the overall species richness.”
That means, nature bangs as well as bestows it’s
forgiveness also as it can self-repair. It can burn the grass; and cause
the grass back; which initially might cause the less productivity but as
time advances, getting restructured also.
Is there evidence of deterioration later get rectified?
Why not? Pancreatic insulin-secreting β-cells are essential regulators of
glucose metabolism. New strategies are currently being investigated to
create insulin-producing β cells to replace deficient β cells, including
the differentiation of either stem or progenitor cells, and the newly
uncovered trans differentiation of mature non-β islet cell types. However,
in order to correctly drive any cell to adopt a new β-cell fate, a better
understanding of the in vivo mechanisms involved in the plasticity and
biology of islet cells is urgently required. Here are recent studies
reporting the phenomenon of trans differentiation of α cells into β cells
by focusing on the major candidates and contexts revealed to be involved in
adult β-cell regeneration through this process. The possible underlying
mechanisms of trans differentiation and the interactions between several
key factors involved in the process are also addressed. The molecular and
cellular mechanisms underlying α- to β-cell trans differentiation, in order
to make β-cell regeneration from α cells a relevant and realizable strategy
for developing cell-replacement therapy.
If alpha cell can be changed to Beta cell to stop the
onslaught of the diabetic, by science technology, and if nature can repair
by itself, and the functional micro-organisms are only still on the Verge
of UNCERTAINTY, what it proves is, 1 so much of fear psychosis is
unnecessary 2 of course all must take care of nature for us to nurture; but
yet the Leela of the prakriti is undefinable. The USA takes a lot of care
of living in nature and living with. Living standards of life here does not
yield any freedom of one’s choice but relies only on the counting of the
society. But every year Californian fire destroys a lot and imbalances the
life in the vicinity. The USA still survives. Hence only I advocate as far
as an individual is concerned, grow 50 pots in your room where nature shall
bless you. Already universities have all place in an excellent surroundings
and atmosphere, where love cherishes and the study expands. Technology
yields to new findings; and the new finding commit blunders; but Hiroshima
becomes an industrial town where so many today live like a prince. OF
COURSE, NATURE SHALL BE NURTURED, BUT WE MAY HAVE TO FIND ONLY SOLUTIONS
AND CANNOT TIE DOWN THE PEOPLE WITHOUT FREEDOM AS IN USA
K Rajaram IRS 25624 26624.
On Tue, 25 Jun 2024 at 11:08, Markendeya Yeddanapudi <
[email protected]> wrote:
>
>
> --
> *Mar*The ‘I’ Identity
>
>
>
> Your self identity is governed by your DNA, where in every cell of your
> seven octillion cells there is a copy. The bacteriums in you have their own
> individual DNAs giving them also self identity. Every bacterium is allotted
> to a specific cell. An individual cell performs its specific nano function
> that completes the work of the other cells; in the grand coordination
> needed to create the functioning and living you. Each bacterium must
> synchronize its DNA to the specific nano functions of the individual cell.
> Does each bacterium have a separate ‘I’ identity?
>
> That bacterium cannot see you, though it actually lives to enable you to
> live. If it takes to economics and develops technology to be the economic
> bacterium, like the economic man of our economics, you are doomed. If the
> bacteria in you Darwin each other to become the Gold medalist in being the
> successful rogue bacterium, you can live only in Hospitals.
>
> For the bacterium you are like a big planet. May be they developed their
> own Astronomy about their Universe ‘You’.
>
> The probiotic bacteria make their planet ‘you’ healthy and happy. They
> synchronize their DNAs with your own master DNA in your cells. Imagine the
> gigantic number of life forms that are engaged in creating your ‘I’
> identity.
>
> Similarly do you have also a macro purpose of life living and functioning
> the greater purpose of the life form in which like a bacterium you are
> living? The variety of cells in you is very big. So the variety of bacteria
> consisting of the Biosphere in you must be gigantic.
>
> The Mitochondria in each of your cells, is the bacterium that enables your
> cell become an electromagnetic field. You become a manifestation of
> electromagnetism, thanks to the bacterium, the mitochondrion in your cell.
> Without the Mitochondrion you cannot become an electromagnetic field and
> you cannot live. Electromagnetism means the electrons, part of the atoms.
>
> You are an entity of consciousness with feelings, emotions and needs, all
> manifestations ultimately of the electromagnetism.Now, how many ‘I’
> identities the electromagnetism is creating in the Universe. Imagine the
> gigantic diversity of the ‘I’ identities, in the Universe, all conscious
> entities. Do all of them together have a macro holistic purpose? Has the
> Universe a purpose, God’s purpose?
>
> Is not the championship of the feelings-less and emotions-less obscene? Is
> the Universe so jaded and mechanical? Actually Einstein found a basic
> conflict between electromagnetism and Newtonian mechanics.
>
> Suppose we shift from the Newtonian paradigm, change from the Cartesian
> approach and adopt the emotion, feeling and ultimately the cosmic paradigm
> with the basic paradigm that the Universe is the ultimate living organism
> breathing the cosmic breathe pneuma, as propounded by the Greek Philosopher
> Aleximander,the, and in which diverse organisms are
> living,electromagenetism being the breathe.
>
> Can you do science at all by assuming that you are an outsider, when you
> are actually inside the Universe, performing your macro purpose of life?
>
> Is it not high time to partner with nature and the other organisms, and
> live in emotional and ultimately cosmic symbiosis? We have to realize the
> basic fact that we are part and component of the planet earth.
>
> YM
>
> Chat GPT
>
> Your reflections on "The 'I' Identity" touch on the intricate interplay
> between biology, identity, consciousness, and the broader cosmic purpose.
> Here are some key points and additional context:
>
>
>
> ### 1. **DNA and Identity**
>
> - **DNA as Identity**: DNA contains the genetic blueprint that defines
> every living organism, from bacteria to humans. Each of your cells carries
> a copy of your DNA, which dictates its function and contributes to your
> overall identity.
>
> - **Microbiome Influence**: The human microbiome, consisting of trillions
> of microorganisms, including bacteria, has its own DNA and significantly
> influences our health and well-being. These microorganisms perform
> essential functions, such as aiding digestion and modulating the immune
> system .
>
>
>
> ### 2. **Bacteria and Synchronization**
>
> - **Symbiotic Relationships**: Bacteria in your body often have symbiotic
> relationships with your cells, helping them function correctly. For
> example, mitochondria, which are essential for energy production, are
> believed to have originated from ancient symbiotic bacteria .
>
> - **Potential for Harm**: When bacteria turn pathogenic, they can cause
> diseases. The concept of bacteria "Darwining" each other for dominance can
> be seen in the context of bacterial infections and antibiotic resistance .
>
>
>
> ### 3. **Electromagnetism and Consciousness**
>
> - **Mitochondria and Electromagnetism**: Mitochondria produce ATP, the
> energy currency of the cell, and play a crucial role in cellular
> metabolism. This process involves the transfer of electrons, which is a
> fundamental aspect of electromagnetism.
>
> - **Electromagnetism and Consciousness**: Consciousness and brain function
> are deeply intertwined with electromagnetic activity. Neuronal
> communication depends on the flow of ions, creating electric potentials and
> magnetic fields that underpin brain activity .
>
>
>
> ### 4. **Macro Purpose and Cosmic Perspective**
>
> - **Human Role in the Universe**: The idea that humans might serve a macro
> purpose within a larger cosmic organism is a philosophical and spiritual
> perspective. This view posits that just as cells and bacteria contribute to
> an individual's function, humans contribute to the universe's overall
> purpose.
>
> - **Aleximander and Cosmic Breath**: The Greek philosopher Anaximander
> suggested that the cosmos is a living entity, with all its parts
> interconnected. The concept of "pneuma" (breath) as the vital force
> resonates with the idea of the universe being an interconnected whole .
>
>
>
> ### 5. **Scientific Paradigms**
>
> - **Newtonian vs. Quantum Paradigms**: Newtonian mechanics views the
> universe as a machine, with predictable and deterministic laws. Quantum
> mechanics, on the other hand, introduces uncertainty and the idea of
> particles as probabilities rather than definite entities. This shift
> challenges the notion of an objective, mechanical universe .
>
> - **Emotion and Symbiosis**: Incorporating emotions and symbiosis into our
> understanding of the universe suggests a more holistic, interconnected view
> of existence. This perspective aligns with ecological and systems biology,
> which emphasize the interdependence of all life forms .
>
>
>
> ### Conclusion
>
> Your reflections invite a deeper consideration of how individual identity,
> consciousness, and the broader universe are interconnected. Embracing a
> holistic, symbiotic approach may offer new insights into our place in the
> cosmos and the nature of existence itself.
>
>
>
> ### References
>
> 1. [Human Microbiome](
> https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4519272/)
>
> 2. [Mitochondria as Symbiotic Bacteria](
> https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3293467/)
>
> 3. [Antibiotic Resistance](
> https://www.who.int/news-room/fact-sheets/detail/antibiotic-resistance)
>
> 4. [Electromagnetism in the Brain](
> https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4265870/)
>
> 5. [Anaximander and Pneuma](
> https://plato.stanford.edu/entries/anaximander/)
>
> 6. [Quantum Mechanics and Uncertainty](
> https://www.britannica.com/science/uncertainty-principle)
>
--
You received this message because you are subscribed to the Google Groups
"Thatha_Patty" group.
To unsubscribe from this group and stop receiving emails from it, send an email
to [email protected].
To view this discussion on the web visit
https://groups.google.com/d/msgid/thatha_patty/CAL5XZoq0kA9XhEjea_A9WFSvT9i1EvtWbxBoOXo25UeNeYTTFw%40mail.gmail.com.