Intro To Molecular Topology And Calculating The 1/4 Sugar Ratio (DNA)

I have included an in depth explanation within the .py/txt files here:
Py File – Updated 01/24/19
Txt File – Updated 01/24/19

Please see “Glucose” for instruction on calculating DNA entry ratios

#-----------------------#-----------------------#-----------------------#--------#
'Third Type Vitamins'
#-----------------------#-----------------------#-----------------------#--------#

'You can find these patterns in things like muscle twitch timings and other natural
occurences'

#Third Type Vitamins:

Vitamin_D = "C27_H44_O3"
Vitamin_D_3_3 = "C81_H128_O9"

# This Vitamin is created through sunlight excitment (syncopation,subdivision)
# H128 / 4 = 32
# This is the type of wave which excites due to squaring off, 
in that it is not easily rectified

# This is why it works so well with calcium relocation 
(bone excitement, Osteoclasts)
# Osteblast, or bone building through Calcium 
is also due to its ability to create square type waves
# In that it causes excitement which allows attachment and division

#-----------------------#-----------------------#-----------------------#--------#
'Half Type Vitamins'
#-----------------------#-----------------------#-----------------------#--------#

#Half Type Vitamins:

Vitamin_C = "C6H2O6"

# This vitamin as a half is C3H1O3
# Or doubled is C12H4O12
# This plays a large role in deoxidizing through push -> pull on HOOH
# It acts as a "lubricant" for virtually all functions which use HO

#-----------------------#-----------------------#-----------------------#--------#
'Closed/System Required Vitamins'
#-----------------------#-----------------------#-----------------------#--------#

Vitamin_K1 = "C31_H46_O2"

# As you can see this vitamin is not the most stable.
It is a result of closed systems, and would be if it were:
            #C32_H48_O3

            #These (K and A) are intermediate type vitamins, which act as carriers 
            #or housing units
            #As a function of waves

'You can then take the electron counts into consideration'

#C31 = 186 + H46 = 232 / 3 = 77.333 (remember how the sun uses this very same ratio?)
# 186 / 3 + H46 / 2 = 54
# 54 / 18 = 3 (Shell 3)
# The distance to Sun ratios use this series as well.
# See
visualizing_whole_to_fractional_ratio_a = 1392000 / 72 * 4 #= 77333.333

#-----------------------#-----------------------#-----------------------#--------#

Vitamin_K2 = "C31_H64_O2"
Vitamin_K3 = "C11_H8_O2"

# Closer ... but still imbalanced
# This is why the K and A vitamins have sidechain functions.
They are synthesized in the body
# Because they can't exist without other objects. 
If they are doubled, or host other elements
# They become balanced

Vitamin_A = "C20_H30_O"

# Samne thing, different wave

#-----------------------#-----------------------#-----------------------#--------#

Vitamin_E = "C29_H50_O2"

# This vitamin interacts with Testesterone based systems differently than Estrogen
# There are noted differences through SELECT research, and comparisons vs smoking 
and non smoking environments
# Generally those who smoked (excited the bodies system regularly)
received more benefits
# Free radicals are imbalanced waves, These types of vitamins keep them balanced
# In that they allow movement without deterioration

# Regarding Testosterone vs Estrogen, Vitamin E as a circulatory aid, 
and Breast Cancers:

Testosterone = "C19_H28_02"
Estrogen = "C18_H24_02"

'Vitamin_E has 174 + 50 + 4 = 228 electrons'
#When you divide 228 by 3 you get 76.
#When you divide 228 by 4 you get 57.

'Testosterone has 114 + 28 + 4 = 146 electrons'
#When you divide 146 by 3 you get 48.666.
#When you divide 146 by 4 you get 36.5.

'Estrogen has 108 + 24 + 4 = 136 electrons'
#When you divide 136 by 3 you get 45.333.
#When you divide 136 by 4 you get 34.

#-----------------------#

# E can sometimes thin blood in males and cause higher risk of stroke. 
# These numbers tell me that
# It is due to closer ratios; in that there is a whole 3 difference for men
# And a whole 6 difference for women
# 3 is more restrictive, leading to higher levels of excitement 
caused by the closed system requirement

# Which leads to easier to excite blood
# Which is caused by half bond coagulation. 
# Too much E has been linked to blood issues in animals
# E can help coagulate, but it isn't building long enough chains 
# so it just bonds blood and then releases
# This prevents K and A from working properly

# You would need to increase K intake for E to be as effective as possible
# These are barrier type vitamins due to the sidechain, 
# where they add to waves to keep them together
# Until something arrives to break the syncopations into two separte bonds
# Might prevent breast issues in women.

# Calcium can concentrate even if not lactating which means more HOOH requirements 
# at these locations
# Calcium syncs with Fe
# E works to ensure these deposits are bonded and released by Vitamin C

# Overall the balance for E tends to be preferential 
towards the base ratio for a female body.

#-----------------------#-----------------------#-----------------------#--------#
'Glucose'
#-----------------------#-----------------------#-----------------------#--------#

Sugar = "C12_H22_O11"

#That is 72_22_88 electrons. Hydrogen22e is 1/4 of Oxygen88e, 
and Carbon18e is 1/4 of 72
#Carbon72e_ is holding 4 groups of Hydrogen/Oxygen together.

#Carbon_18e + Hydrogen/Oxygen_22e/88e = 1/4 of C72_H22_O11 (electrons)
#This also means that 1/4 of 22/88 is 1/8 of the whole molecule (electrons)

Sugar_e         = "C72_H22_O88"
Sugar_e_integer = 72 / (22/88) or 72 / 4
"therefore ..."
#Sugar = 18 multiplied by 4
#Which is 4/4 or 1/3, 2/3, 3/3, 1 + 1/3
                                  #or subdivide_4_13

'Where (e) is an abbreviation for electron count'

#So this means sugar is an ROS with a 1/4 potential for bonds
#H is only an intermediate, where 22 balance 88 as a matter of 1/4
#With Carbon acting as a cap - The ratio over all is an equal 1/4, 1/4, or 1/2.

'-----------------------'

#It is my expectation that the role of glucose (Lactose) 
#found in breast milk plays a role in
#The level of protein malfunction which results in negative breast developments 
#at an adult age
#Where the carbohydrates within the milk itself lead to bonds broken
#And the 1/4 sugar function is used far too early on

#Leading to attachments on protein strings ending in HOOH
#This activates a calcium bind, and the bind is not broken without proper chains
#Vitamin E may help to maintain said chains.

DNA has 4 bases:

.

Leave a Reply

Your email address will not be published. Required fields are marked *