On the night of Saturday, July 11, in their new home in the "Xingguang Mingyuan" community, Qin Ke and Ning Qingyun were sitting side by side in the study room, carefully verifying the calculation formulas on seed calculation on the thick manuscript paper.

.

If you don’t know the details, you might find it funny. As professors from the Department of Mathematics and the Department of Physics, the two of them are fully engaged in biological research on plant breeding.

But if you look closely, you will find that what they are actually doing is mathematical work - using mathematics as the key to knock on the door of the seed genetic treasure house!

"Swish-swish--" The tip of the pen jumped quickly on the white paper, extending into lines of complex calculations.

The moonlight outside the window was like a gauze, the stars were dotted, and the night wind brought the rhythmic croaking of frogs and the rustle of the woods, which was very poetic and picturesque on a summer night, but neither of them noticed these, and they only had calculations in their eyes.

The last and most critical difficulty in seed science is to use mathematical language to systematize the theoretical models contained in this pile of manuscripts!

Once this work is completed, with the data in their hands, it will be a matter of course and a piece of cake to deduce the final hybrid breeding plan for the perfect desert sweet potato.

Establishing a computational seed science system is not just about putting together mathematical botany. It requires using mathematics to discover and straighten out the countless intricate plant genetic relationships, and integrate them into a reliable model system to facilitate the use of these genetic genes.

The relationship between them deduces how to cultivate new plant seeds with ideal characteristics through hybridization technology and even genetic technology.

This is a huge and complex project, and the truth about the inheritance of life has always been hidden in the fog. Even though genetics has made great progress now, it is more about the exploration of animals or humans themselves.

In the past few decades, plant genetics research has mainly relied on repeated practical trial and error and experience summary. It was only in the past decade that research began to be conducted from the perspective of DNA and even RNA.

Almost no one like Qin Ke and Ning Qingyun has tried to deduce plant breeding methods based on mathematical modeling and combining the base characteristics of DNA and RNA.

It is undoubtedly very difficult to start a new discipline from scratch.

More than two years ago, the two started with functional analysis, relied on mathematical modeling, and combined their original experience in computational fluid dynamics and computational materials science to initially establish the prototype of computational seed science.

stood out at the conference.

But the real difficulty lies behind.

In order to perfect computational seed science, the two invested countless efforts to deeply study the genetic code of plants, starting from the four major bases of DNA: adenine (A), guanine (G), thymine (T) and cytosine (C).

base to the four bases of RNA: A (adenine), G (guanine), C (cytosine), and U (uracil); from studying the superhelical structure of DNA, the knots in the linear double strand, and the multiple helices

and other high-level structures, to more than a dozen different structures of messenger RNA and non-coding RNA...

Every combination and every discovery contains a lot of hard work and sweat from the two of them.

During this period, the two of them did not know how many documents they read. The number of plant DNA research materials provided by President Zhai of the Biological Society alone was more than 500. Almost all of these materials were familiar to the two of them and became the basis for establishing the theoretical system.

Nutrient and data base….

In order to better conduct experiments and DNA and RNA analysis, the two also spent more than 70 million yuan to introduce a large number of experimental instruments and equipment from abroad to upgrade the lime plant cultivation laboratory.

The Lime Plant Cultivation Laboratory team did not waste the new equipment they finally purchased. Dozens of people worked together as one, conducting experiments and analysis of DNA and RNA day and night, and the accumulated experimental reports could be piled up to one meter high.

And all the days and nights, white and black, all the fruits of hard work and sweat are condensed into more than two hundred pages of manuscript paper and countless calculations that the two of them are currently verifying.

At this moment, a brand new, mature theoretical model is recorded in this stack of manuscript paper. Only the final integration is left, using mathematics to systematize it so that it can be officially put into application!

After Qin Ke and Ning Qingyun hurriedly finished their dinner, they dived into the pile of manuscript papers.

Carry out this final systematic work.

The division of labor between the two was clear. Ning Qingyun was responsible for systematizing the first half of the manuscript, and Qin Kelai completed the remaining half.

With the tacit understanding cultivated by the two of them through many years of joint research, there is no need to worry about subsequent collaboration issues.

Under the focused pens of the two people, the line-by-line calculations weave a large network of seed science theory with clear logic and rigorous details. The genetic genes and base combinations of all plant seeds, as well as the secret codes of life under different sequences and different structures, are all

Caught in this big net.

The dawn of success is within reach!

The part that Ning Qingyun is responsible for is more theoretical. It is very tedious but not too difficult. It requires carefulness and patience. In addition, Ning Qingyun has always been responsible for the theoretical work of computational seed science. Now it is just using mathematical language and calculation formulas.

It was performed perfectly, so Ning Qingyun's progress was smooth.

The second half that Qin Ke took over was the application, including the arrangement and combination of all DNA and RNA bases, prediction of structural shapes, mathematical modeling, and derivation of specific hybrid breeding plans. The difficulty was significantly higher and required extremely strong logical thinking.

ability.

Time passed bit by bit, the full moon outside the window had risen into the sky, and the hands pointed to the early morning.

Ning Qingyun, who is making good progress, has begun the final finishing work.

Qin Ke is still struggling with the mathematical modeling and the derivation logic of the hybrid breeding plan. He has clarified most of the details, but is still missing a certain key "line" to connect the countless fragments in his hand.

, and integrate it into the theoretical network, turning theory into a "practical tool".

This chapter is not finished yet, please click on the next page to continue reading the exciting content! Just when Qin Ke was about to stay up all night, at a certain moment, his brain suddenly seemed to open up, and his thinking became extremely clear. Countless thoughts

Knowledge turned into stars dotted in his mind.

This feeling is inspired by the "Inspiration Amplification" state!

The long-term focus and the accumulation of bits and pieces in the past two years have unexpectedly inspired the system's "inspiration amplification" state!

This is the first time that Qin Ke has stimulated the "inspiration amplification" state in subjects other than mathematics!

But he didn't think much about it. He grasped the inspiration that was flying like electric sparks and once again accelerated the writing speed of the pen in his hand.

"That's right... by introducing the hyperbolic partial differential equation here, we can get the secondary structure transformation formula of tRNA. Single-stranded small molecule RNA can be substituted into this formula. After four stages of double helix transformation, it can be smoothly transformed into

into five non-paired sequences, and finally form a clover-shaped stable structure! The relationship between the dihydrouracil arm and the dihydrouracil ring can also be directly calculated through calculations to determine the optimal connection point, and the anticodon ring and the relationship between

The relationship between amino acid binding sites!”….

Qin Ke became more and more excited as he wrote, and the light in his eyes became brighter and brighter!

"Putting the characteristics of mitochondrial rRNA and chloroplast rRNA into the complete distance space can lead to the changes of TΨC arm (T arm) and TΨC ring (Ψ ring) in organic solvents and acid-base reagents... These data can be used using complex

Cauchy's theorem in variable function theory, plus Euler's formula to tie it all together..."

Ten minutes passed in a blink of an eye. In Qin Ke's inspired pen, the language of the universe, mathematics, fully outlined the mystery of plant inheritance and the beauty of life!

"It's done!"

Qin Ke put down his pen, relaxed mentally, and immediately exited the "Inspiration Amplification" state. A wave of mental exhaustion and exhaustion immediately came up. Fortunately, because he had only entered the "Inspiration Amplification" for ten minutes, although he was mentally exhausted at this time, he could still

I was not so tired that I almost fell asleep like before.

Moreover, an indescribable sense of accomplishment flowed throughout his body and every cell in his body, making Qin Ke's tired spirit become high-spirited and excited!

He finally succeeded!

After his mathematical systematization, all cadaver genes can be turned into mathematics and calculation formulas, and mathematical modeling can be carried out based on this to deduce specific DNA and RNA base combinations, sequencing and optimal structures, and then deduce the final

The best hybrid breeding solution!

Although this process is relatively complicated, it cannot guarantee an accuracy of more than 95%. Even if the hybrid breeding plan is deduced, it still needs

Continuous experimental verification is required - but this is enough!

That’s an accuracy rate of 95%! 95%!

And this is the first plant genetic model system in human history that is accurately described in mathematical language!

This is a brand new sub-discipline that is destined to have a profound impact on the world. In the future, all food crops, even fruit trees, and flower seeds can use this computational seed science to greatly improve the accuracy of seed hybridization and breeding.

In seed cultivation, research costs and time can be reduced by at least 95%!

It is no exaggeration to say that the entire world’s food cultivation research will enter a new era!

The entire seed industry will undergo earth-shaking changes!

Ning Qingyun, who had just left to make a cup of black tea and came back, saw Qin Ke's excitement and sense of accomplishment and guessed it, and said happily: "You're done?"

Qin Ke glanced at the seat next to him. Apparently, the part that Ning Qingyun was responsible for was completed.

"Well! We're done!" He took the black tea and drank it in one gulp, then picked up Ning Qingyun and spun around in circles a few times. His excited voice echoed throughout the study.

"ah--!"

The girl's long hair flew up due to inertia, bringing with it a pleasant lime-like fragrance.

Ning Qingyun was carried around by Qin Ke like this. She was a little scared at first, but when she felt Qin Ke's joy, she also laughed softly.

This is the first great invention completed by her and Qin Ke that will truly change the entire world and benefit all mankind!

The girl also felt an indescribable pride in her heart.

@..
Chapter completed!