Method Of Using/Applying A Keratin Hydrolysis Peptide Solution To Promote Growth Of Wheat Under Low Light Condition

Abstract

Present invention teaches the method of using a keratin hydrolysis peptide (“KHP”) solution to promote the growth of wheat plants under low light conditions. By selectively choosing specific weights of feathers and water, and treating the mixture to a high-temperature high-pressure hydrolysis process, the resulting solution is confirmed to contain at least 253 peptides and then spray to the wheat leaves at tillering stage. Optionally, the KHP solution can be diluted by water, as disclosed in the specification, for for spraying to leaf surface of wheat plants at tillering stage.

Description

PRIORITY CLAIM TO FOREIGN APPLICATION

Applicant hereby makes priority claim to a Taiwan application, number 112145598, having the Taiwan filing date of Nov. 24, 2023.

SEQUENCE LISTING/INCORPORATION BY REFERENCE

Table I (in Sequence Listing XML format) shows the at least 253 peptides and its annotated sequences for the solution generated in accordance with the disclosure of this application. The Sequence Listing XML file complies with the WIPO ST.26 requirements. Said XML copy, created on 03/17/2024, is named Table-I-253 sequence and is 216 bytes in size.

Applicant hereby incorporates by reference said Sequence Listing XML file in its entirety as part of the disclosure and specification of the present application

BACKGROUND OF THE INVENTION

Present invention disclosed and claimed the method and application of a keratin hydrolysis peptide (“KHP”) solution to promote the growth of wheat plants under low light conditions.

Hydrolyzed keratin has long been used to strengthen hairs, reduce hair splitting and breakage. Other beneficial uses include skin moisturization and wound healing. Keratin hydrolysate has also been known to function as a biofertilizer, boosting plants' growth by enhancing the plants' ability to receive and utilize nutrients, including commonly applied fertilizers.

The KHP solution is made by a hydrolysis process using feathers and water, via a high-temperature and high-pressure process, resulting in a solution that has many beneficial applications in the fields of horticulture, agriculture and potentially other farming businesses.

Among the embodiments disclosed and claimed in this application, one specific embodiment used feathers only, without water, to be treated with the high-temperature and high-pressure process as taught herein to produce a specific version of the KHP solution.

The common wheat plant, Triticum Aestivum, a species of Poaceae, Triticeae plant, is a farming crop originated in Middle Eastern area with fertile soils, and subsequently spread out to Europe and Asia. The top wheat production countries/regions include China, EU, India, Russia, etc. The wheat plants have two major types: spring and winter species; both need longer sun exposure. In Taiwan, the major wheat species is the TaiChung No. 2, with less sensitivity to temperature and light fluctuations.

However, the weather pattern variations, on account of the global climate change, has been causing wheat plant's growth and production to be adversely affected. Particularly, certain rains and cloudy/foggy weather conditions caused the wheat's development to be stunted, reducing the effectiveness of photosynthesis, and reducing ultimately the production. It is estimated that, in recent years, the smoky and foggy weather patterns in China, reducing the sun exposure to the wheat plants, caused the total production yield to shrink by 8%.

Through many researches, scientists and farmers have realized that at wheat's early growth period, certain remedial measures are taken to restore the plants' growth potential. The inventors of present application, through experiment, have found and confirmed the KIP solution made as taught herein can be used to provide that remedial measures to promote the wheat plants' growth and ultimate production yield despite the low light exposure.

SUMMARY OF THE INVENTION

The keratin solution is primarily based upon feather, which contains 85-91% keratin, 13-15% organic nitrogen, 1.6-2% organic sulfur, as well as other materials. The high keratin content has drawn many prior researches that work to break down, by enzyme, chemical agents, or fermentation process, into peptides, amino acids and other smaller molecules that can be used for animal feeds, plant fertilizers, and cultivation bases.

Around 2019, Nurdiawati, et al, came up with a hydrolysis process, by the mixture of α-amylase and protease to hydrolyze feather waste, resulting in a mixture of amino acids, fatty acids, and sugars. Nurdiawati experimented and adopted certain specific high-temperature and high-pressure setting in the hydrolysis process and discovered that the resulting solution, when mixed with some potassium and other minerals, can boost the growth of Pogostemon cablin and Vigna radiata, as reported in International Journal of Recycling or Organic Waste in Agriculture (8:221-232, 2019).

The inventors of present application, under the aegis of CH Biotech, developed and selected different feather and water compositions to perform the hydrolysis at higher temperature and higher-pressure setting, resulting with different keratin hydrolysis peptide (“KHP”) solution that can be used on different crops/plants.

The selected embodiment of present invention uses a mixture of water and feathers, and subject the mixture to a thermal hydrolysis process to create KHP solutions based upon temperature/pressure parameters as noted below.

The inventors used Dionex Ulti Mate 3000 UPLC to separate the peptides; an analysis is done via Thermo Orbitrap Fusion Lumos Tribrid Orbitrap mass spectrometry to identify the peptides, which are then subsequently confirmed by looking up the BIOPEP-UWM database.

The solutions sprayed to the leaves of young wheat plants at tillering stage. The solution can be diluted by water, at 300-800 ratio by volume, and then applied to the leaves' surface.

A preferred dilution ratio is 500 times (noted as 500×) of water by volume.

BRIEF DESCRIPTION OF DRAWINGS

The accompanying drawings, figures and tables, which are incorporated in and constitute a part of this specification, illustrate and exemplify the preferred embodiments of the invention. Together with the description, serve to explain the principles of the invention.

FIG. 1 shows the comparison of above-ground bio mass dry weights among the 3 groups (Check, Experiment 1 and Experiment 2) under low light conditions, compared to the normal light group (right bar).

FIG. 2 shows the comparison of under-ground bio mass dry weights among the 3 groups (Check, Experiment 1 and Experiment 2) under low light conditions, compared to the normal light group (right bar).

FIG. 3 shows the comparison of root system's surface areas among the 3 groups (Check, Experiment 1 and Experiment 2) under low light conditions, compared to the normal light group (right bar).

DETAILED DESCRIPTION OF THE INVENTION

The keratin hydrolysis peptide (“KHP”) solution of present invention is made by a high-temperature and high-pressure process to treat a mixture of water and feathers as shown in the parameters herein.

The mixture ratio, temperature, pressure and duration parameters are shown herein:

			Water content
			in feather	Pressure	Temp.	Time	Mass	Concen.
	Feather (kg)	Water (kg)	(%)	(kg/cm2)	(° C.)	(min)	(Da)	(ppm)
1	70	0	46%	13	180	40	705.9~3194.7	381250
2	66	44	50%	16	195	40	593.3~3828.0	200000

A first embodiment of keratin hydrolysis peptide (KHP) solution, without water, can be made by 70 kg of feathers, with the feathers' water content being 46%, and then treated by the steps of:

• • a. stirring the feathers in a sealed container;
  • b. hydrolyzing the feathers in the container with a temperature and pressure setting of 180° C. and 13 kg/cm² for a duration of 40 minutes;
  • c. using a mass spectrometer to confirm the combination of peptides in the solution to contain at least 253 peptides as listed in the specification whereby their molecular masses are between 705.9 and 3,194.7 Dalton, and the concentration is in the range of 2.0×10⁵˜4.5×10⁵ ppm.

The keratin hydrolysis peptide (KHP) solution of the first embodiment is further filtered and concentrated to 381,250 ppm concentration.

The hydrolysis process in the second embodiment takes the steps of:

• • a. Preparing the KHP solution by mixing 66 kg of feathers whose content is 50% water and 44 kg of water in a sealed container,
  • b. hydrolyzing the mixture in the container with a temperature and pressure setting of 195° C. and 16 kg/cm² for a duration of 40 minutes;
  • c. using a mass spectrometer to confirm the combination of peptides in the solution to contain at least 253 peptides as listed in the specification where their molecular masses are between 500 and 4,000 Daltons, and the concentration is in the range of 2.0×10⁵˜4.5×10⁵ ppm.

The keratin hydrolysis peptide (KHP) solution of the second embodiment is further filtered and concentrated to 200,000 ppm concentration.

The confirmation of some of the 253 peptides is further done by referencing the BIOPEP-UWM database.

The group of wheat plants applied with the first embodiment solution will be referred to as Experiment 1. The group of wheat plants applied with the second embodiment solution will be referred to as Experiment 2.

The method of using a keratin hydrolysis peptide (KHP) solution is spraying the solutions, optionally diluted by water at ratios between 300-800 times, noted as 500×-800×, to the leaves of young wheat plants.

A preferred dilution ratio is 500, denoted as 500×. The timing to spray to wheat plants is selected to be the tillering stage of young wheat plants.

The inventors conducted different tests, in controlled settings, by defining certain growth conditions and groups.

Two sets of light exposure conditions are provided herein. Check Group, Experiment 1 and Experiment 2 Groups are given low light condition, 18000 lux during day time hours, as noted in the Illumination column. The Normal group is given 35,000 lux lighting during day time hours.

In the 3 low light groups, the KHP solutions from the 2 embodiments are used, at the dilution ratios as shown, to compare with the Check group where only water is given.

		Illumination	Leaf spray	Dilution
	Light Group	(lux)	(2 ml)	Ratio
	Normal	35,000	water	—
	Check Group	18,000	water	—
	Experiment 1	18,000	KHP-1	500x
	Experiment 2	18,000	KHP-2	500x

The inventors plant 3 healthy wheat seeds in a starting pot, about 2 cm into the soil. Each of the 4 group above has 5 starting pots.

The inventors set the normal growth conditions to have 16 day-time hours and 8 night-time hours, with light exposure of 35,000 lux during the day. The low light conditions, for the Check, Experiment 1 and Experiment 2 groups' light exposure is 18,000 lux, simulating the low light condition in raining or foggy weathers that are adverse to wheat plants' growth.

Specifically, the leaf spray application of the KHP solution is done at the tillering stage, which is roughly 2-3 weeks after the wheat's germination, among other growth stages of the wheat plants.

Seven days after the application of the KHP solutions, the above-ground bio mass portion of the wheat plants are harvested, heat-dried and measured by digital AP2224, Shimadazu scale, and the weight results are then tabulated into FIG. 1.

As shown in the bars of FIG. 1, the Check group's above-ground dry weight is roughly only half of that in the Normal Light group. The two experiment groups, leaf-sprayed at tillering stage, show increase of 19.4% and 11.2% over that of the Check group. This clearly shows that the leaf-spray application of the KHP solutions promotes the growth of above-ground bio mass, and increases the dry weight of the above-ground bio mass as measured.

The underground root systems were retrieved and cleaned, 7 days after the leaf-spray application of the KHP solutions; they are then heat dried and measured by digital AP2224, Shimadazu scale, and the weight results are then tabulated to FIG. 2.

As shown in FIG. 2, the Check group's weight is less than half of the Normal light group. Both Experiment 1 and Experiment 2 groups show improvement of the underground bio mass (root system) weights, by 36.3% and 21.5% respectively, on account of the KHP solutions.

A comparison is made to measure the differences in root system's surface areas among the 3 groups (Check, Experiment 1 and Experiment 2) under low light conditions, vis-à-vis the growth under normal light condition. It was found that the Experiment 1 group shows 16.3% increase, and the Experiment 2 group shows 8.1% increase, over that of the Check group which only received water during the same period of time under low light condition. This is reflected in FIG. 3.

Based upon the tests and experiments done by the inventors, it is confirmed that the leaf spray application of the KHP solution done at the tillering stage, which is roughly 2-3 weeks after the wheat's germination, will boost up young wheat plant's light utilization and adaptability to low light conditions. This ultimately leads to higher production yields for wheat plants even in less than ideal growth conditions such as low light.

While the disclosure herein gave limited teachings and embodiment examples, it should be noted that the description and disclosure made herein illustrated the preferred embodiments of the invention and are not meant to limit the scope of the applicant's rights. Variations and alterations may be employed for yet additional embodiments without departing from the scope of the invention herein.

Claims

1. A method of using a keratin hydrolysis peptide (KHP) solution to promote the growth of wheat plants under low light conditions, comprising the steps of: a. Preparing the KHP solution by mixing 66 kg of feathers whose content is 50% water and 44 kg of water in a sealed container;b. hydrolyzing the mixture in the container with a temperature and pressure setting of 195° C. and 16 kg/cm2 for a duration of 40 minutes;c. using a mass spectrometer to confirm the combination of peptides in the solution to contain at least 253 peptides as listed in the specification where their molecular masses are between 500 and 4,000 Daltons, and the concentration is in the range of 2.0×105˜4.5×105 ppm; andd. applying the KHP solution by spraying to the leaves of wheat plants at tillering stage.

2. The method of using a keratin hydrolysis peptide solution of claim 1 wherein the solution is diluted with water by volume at the ratio of 1:300-800 for applying to the wheat plants.

3. The method of using a keratin hydrolysis peptide (KHP) solution of claim 2 wherein the diluted solution is diluted with water by volume at the ratio of 1:500.

4. A method of using a keratin hydrolysis peptide (KHP) solution to promote the growth of wheat plants under low light condition, comprising the steps of: a. Preparing the KHP solution by placing 70 kg of feathers whose content is 46% water in a sealed container;b. hydrolyzing the mixture in the container with a temperature and pressure setting of 180° C. and 13 kg/cm2 for a duration of 40 minutes;c. using a mass spectrometer to confirm the combination of peptides in the solution to contain at least 253 peptides as listed in the specification where their molecular masses are between 500 and 4,000 Daltons, and the concentration is in the range of 2.0×105˜4.5×105 ppm; andd. applying the KHP solution by spraying to the leaves of wheat plants at tillering stage.

5. The method of using a keratin hydrolysis peptide solution of claim 4 wherein the solution is diluted with water by volume at the ratio of 1:300-800 for applying to the wheat plants.

6. The method of using a keratin hydrolysis peptide (KHP) solution of claim 5 wherein the diluted solution is diluted with water by volume at the ratio of 1:500.