Jack Kruse认为,光(特别是紫外光和生物光子)在生命的起源和进化中扮演了远超传统生物化学所理解的关键角色,光直接影响基因表达、能量转换和复杂性的构建。 他批评了传统生物化学和进化论对光的忽略,并认为这种忽略导致了对生命本质的误解。
POMC (Proopiomelanocortin) 与紫外光:
线粒体内膜与能量转换的光学特性:
对传统生物化学的批评与雷佩特Ray Peat的交流:
Albert Szent-Györgyi 的远见与 Robert O. Becker 的证明:
哺乳动物从缺氧到有氧的进化与紫外光的选择:
能量、复杂性与 E=mc²:
对主流生物化学和进化生物学的再次批评:
播客的目的:
总结来说,Kruse 试图构建一个基于量子生物学和光物理学的生命叙事,挑战了传统生物化学和进化论中以化学反应和基因为核心的解释框架。他认为,紫外光和生物光子是驱动生命进化、基因表达和能量转换的核心要素,而对这些光学现象的忽略导致了对生命本质的片面理解。他暗示这种颠覆性的观点因不符合主流科学范式和科研资助体系而受到压制。
Edit:2025.09.26
or palm seed. What is palm seed?
Proopopio melano cortin. It's a it's a
gene in mammals that that is really what
we specialize in. And it turns out what
translates palm seed from our DNA? UV
lights the stimulus. Where does that
light come from? Most people think that
it's from uh the sun. I'm going to tell
you in the original animals that first
come out, it's not only from the sun,
but it's also from the ultra weak
biopotons that they make, which tends to
be in the ultra weak um spectrum, which
is 200 to 400. How do we know that?
Because everything that is about a
mammal, which is the leptin melanoordin
pathway, and then this hemoglobin story
with the inner mitochondrial membrane
becomes sculpted. That's where you have
NAD to oxygen. What's the the the change
there? -400 to positive400 volts. But
what's the other thing? What's the
emission and absorption spectra of
cytochrome 1? Turns out it absorbs at
340 and it emits in the blue range, in
the flavven range. That's why the second
cytochrome is a blue absorber. It also
turns out that it makes the most super
oxide pulse in all of the mitochondria,
which what are free radicals? Remember,
they're unpaired electrons. What does
that mean? It means they all have
absorption emission spectra. So the
other problem in biochemistry we haven't
got to but I did sit down with a famous
biochemist probably 10 or 15 years ago
that you probably heard of Ray Pete and
I tried to tell him this story and his
eyes were glazed over when he told me
all the things he said. I said Ray I
said do you understand that anything
that has an absorption and emission
spectrum means that light has to be part
of the story? And I told him how old the
story went. I said do you know who came
up with this idea originally? said it
was um guy who also won a Nobel Prize
for being wrong about the Kreb cycle
which was Albert St. Georgie and he said
the most interesting thing at a meeting
in 1941 in Budapest. He said the only
thing that DNA codes for is proteins and
he goes it's really funny when you look
at a protein they have an electronic
structure that mimics a semiconductor.
Do you know who is sitting in the
audience that day? Robert Obecker
literally within less than two decades
he proves that Albert St. Georgie is
correct. Okay. and he def beyond a
shadow of a doubt. So when I gave the
story to Ray, I said, “Ray, all the
things that you believe are based on
this paradigm of you learning about all
these box cars, but as you said, Nick,
in the beginning of this podcast, you're
like, Jack, it's not clear to me how the
two domains of life came together, which
is now you're asking me the next
question, which is beautiful because I
know you're understanding what I'm
saying now. So let's talk about what
happened to these mammals.” Turn out
these mammals went from being hypoxic to
TCA masters with oxygen. And what did
that mean at the mitochondrial level?
That means they made chemicals and
selected for chemicals at a quantum
biologic level, not at Darwin's level
that had emission spectras that were all
in the UV range. And now if the switch
happens, if the switch happens, you now
have the energetic potential to build
more and bigger complexity. You got it?
And that's exactly what the story of E=
MC² is. You know, I don't have to teach
you about that because you know energy
and mass and Einstein's equation are the
same. So the thing is if you're able to
have more energy in the system, which is
what Pigene's theorem is, he won the
Nobel Prize in 77. Basically, a a cell
is a quantum uh cell that's designed to
pump light into it. And what do we do
through electrical resistance? Photo
electrical resistance. That's how you
build the complexity. So, what are you
doing? The electrical resistance of
things in a cell slows the light down.
Those things harvest the power and then
we build the complexity from that. It's
no different than the story I told you
about what happens to a baby when it's
inside its mother. Okay? It's exact same
story. It's another fractal of the
story. And when you see it for yourself,
you start to look at biochemistry. You
start opening up your Lener biochemistry
and go, “Jesus Christ, I never learned
anything about absorption and emission
spectras.” And this is the reason why,
Nick, I'm such a pain in the ass for
guys like you that are in evolutionary
biology and biochemistry because I keep
pointing out these key features that
you're forgetting. And you guys know a
lot of the stuff I know. You know about
the GOE. You know about the Camrian
explosion. you know about Darwin and how
the story doesn't marry up to the
Cambridge explosion, but because it's
central dogma, nobody wants to question
it. Why? Because if you're a PhD, you'll
never get any money from the NIH or from
DARPA or for anybody else. And I
understand that. But remember, we're
doing this podcast not to talk about how
centralized science went off the rails.
We're actually trying to teach people
the story of life.
Edit:2025.09.26