<i>Armoracia rusticana </i>plant named ‘K-62’

Abstract

A new and distinct horseradish (Armoracia rusticana) named K-62 is disclosed, characterized by and distinguished from prior commercial horseradish varieties by increased activity of horseradish peroxidase (HRP). Plants have been clonally propagated by root division and shown to retain the increased HRP activity, which can be used, among other things, in molecular biology applications.

Claims

1. A new and distinct variety of horseradish plant, substantially as illustrated and described herein.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) The accompanying photographs illustrate the overall appearance of the new cultivar ‘K-62’ grown in Collinsville, Ill., in a field and under commercial horseradish production practices during the spring/summer. 100/50/300 units of fertilizer were applied prior to planting. Fields were hand hoed to remove weeds and sprayed with HERO® insecticide for insects. Plants were about four to five months old when the photographs were taken. During the production of the plants, day temperatures ranged from 65 degrees to 85 degrees Fahrenheit and night temperatures ranged from 45 degrees to 60 degrees Fahrenheit. Plants received an adequate amount of rain for the soil type in the field and other weather conditions.

(2) FIG. 1. The photograph in FIG. 1 provides a side view of ‘K-62’ foliage.

(3) FIG. 2. The photograph in FIG. 2 provides a side view of ‘K-62’ root structure.

(4) FIG. 3. The photograph in FIG. 3 provides a view of an isolated ‘K-62’ root.

(5) FIG. 4. The photograph in FIG. 4 provides a close-up view of ‘K-62’ foliage.

(6) The photographs were taken using conventional techniques and although colors may appear different from actual colors due to light reflectance, the colors are as accurate possible using conventional techniques.

DETAILED BOTANICAL DESCRIPTION

(7) The following observations and measurements describe the new cultivar ‘K-62’, grown in Collinsville, Ill., in a field and under commercial horseradish production practices during the spring/summer. 100/50/300 units of fertilizer were applied prior to planting. Fields were hand hoed to remove weeds and sprayed with HERO® insecticide for insects. Plants were about four to five months old when the photographs were taken. During the production of the plants, day temperatures ranged from 65 degrees to 85 degrees Fahrenheit and night temperatures ranged from 45 degrees to 60 degrees Fahrenheit. Plants received an adequate amount of rain for the soil type in the field and other weather conditions. The plants as described were four to five months of age. Measurements and numerical values represent averages of typical plants. In the following description, color references are made to The Pantone Book of Color (1990). Botanical classification: Armoracia rusticana ‘K-62’. Propagation: Method.—Root division. Time to initiate roots.—About four weeks at approximately 70 degrees F. Time to produce a rooted young plant.—About six weeks at approximately 70 degrees F. Growth.—Tolerates wet soil and grows vigorously. Root description.—Stout taproot and stout rhizomes with finer rootlets. Fleshy taproot averaging 10-12 inches in length and 1-2 inches in diameter, and having a cylindrical and tapered shape. Semi-rough skin that is thin, covered in gnarled notches and bumps, and ranges in color from tan (12-0910) to light brown (13-1011). Underneath the skin's surface, the flesh is white (11-0105), dense, crisp, and contains liquid. Root has a sharp, pungent taste. Horseradish plant: Growth habit.—Inverted triangle. Basal leaves are widely spreading and can be floppy. Height.—On average approximately 18 to 42 inches. Plant spread.—On average approximately 18 to 36 inches. Branching characteristics.—Rosette of basal leaves from which there develops one or more flowering stalks. Central stalk and upper axillary stems have alternate leaves and terminate in racemes or panicles of flowers. Peduncles.—Light green (13-0215) to medium green (16-0233) in color and glabrous. The peduncles have a typical and observed length of 125 centimeters and diameter of 2-3 centimeters. Foliage: Leaf.— Average length.—Basal leaves approximately 12 to 18 inches. Alternate leaves approximately 1 to 6 inches. Average width.—Basal leaves approximately 1.5 to 6 inches across. Alternate leaves approximately ¼ to 2 inches across. Shape of blade.—Basal leaves are broadly oblong-elliptic. Edges are wavy with small, rounded teeth. Alternate leaves are narrowly elliptic to broadly oblong-lanceolate and grow from stems. Alternate leaves become smaller, narrower and shorter stalked further up the stem and upper leaves can be lance-linear with coarsely crenate-serrate to shallowly pinnatidid margins and sessile or with short petioles. The basal and alternate leaves are arranged on the stem in an alternate pattern. The leaves have long petioles, are obovate to oblanceolate, attenuate to cuneate at the base, unevenly crenate, and grow to a length of up to 100 centimeters. Leaves on the inflorescence stem are oblanceolate to linear in shape. Texture of surface.—Both upper and lower surface of basal and alternate leaves are glabrous. Color.—Upper surface of both basal and alternate leaves are medium green (15-0332) to dark green (18-0125) in color. Lower surface of both basal and alternative leaves are paler shade of green than upper surface. Petiole: Length.—The petioles of the basal leaves can be approximately as long as the blades. The typical and observed petiole diameter is 6 millimeters. Texture.—Glabrous, smooth. Color.—Light green (15-6322). Flower: Blooming period.—From mid-spring to mid-summer and lasts about 2 months with 3-7 blooms per plant. There are generally between 1000 to 2000 flowers per inflorescence. The inflorescence has numerous flowers that continue to open over a period of several days, with individual flower longevity being 1-2 days, depending on prevailing weather conditions, with hot conditions resulting in less longevity. Location.—The flowers bloom toward the apex of each raceme (or branch of a panicle). The inflorescence is a panicle or compound raceme with a branching axis that is 15 to 20 centimeters in diameter and 25 to 35 centimeters in length. Petals.—The plant bears solitary flowers on panicles with four white (11-0507) petals. Petals are about twice the length of the sepals. The petals are broadly obovate in shape and have a smooth texture. The petals form the shape of a cross for the flower. The flowers are 8-10 millimeters in diameter with a 2 millimeter depth. Individual flower petals are 6 millimeters long and 4 millimeters wide. Sepals.—Four light green (12-6204) sepals. The typical and observed length is 4 millimeters and the typical and observed width is 2 millimeters. The sepals are concave, have a smooth texture, and are broadly ovate with a membranous white margin. Stamens.—Six. Pistil.—Short style. Pedicels.—Ascending pedicels are ¼ to ¾ inches in length, light green (12-6204), and glabrous. Fruit/seeds: Shape.—Flowers are replaced by cylindrical seedpods. Size.—Seedpods are up to ¼ inch long. Seedpods are light green (17-0235), are typically 4-7 millimeters long and 1-2 millimeters in diameter. Number.—Each seed pod can contain up to approximately 8 seeds. Other characteristics: Disease and pest resistance.—Some resistance to internal root discoloration. Temperature tolerance.—Tolerant to wind, rain, and temperatures ranging from about 20 degrees F. (ground temperature) to 100 degrees F. Culinary.—Horseradish can be used as a spice or culinary herb, especially utilizing its pungent tasting roots. Toxicity.—Because of high levels of mustard oil from the conversion of glucosinolates, especially in the root, ingestion of horseradish can produce toxic effects on mammalian herbivores. Horseradish peroxidase (HRP) activity.—As determined, for example in the following Examples, ‘K-62’ yielded 194.5 units of HPR per gram of horseradish root tissue, which is over three times the amount of HRP as any other commercially available horseradish plant known to the Inventor.

(8) The following examples are included to demonstrate certain embodiments of the disclosure. It should be appreciated by those of skill in the art that the techniques disclosed in the examples which follow represent techniques discovered by the inventor to function well in the practice of the disclosure. However, those of skill in the art should, in light of the present disclosure, appreciate that many changes can be made in the specific embodiments which are disclosed and still obtain a like or similar result without departing from the spirit and scope of the disclosure.

EXAMPLES

Horseradish Extraction Procedure to Determine Peroxidase Content

(9) Equipment and Supplies: Cleaver for chopping roots Vegetable Peeler Cutting Board Balance to weigh samples 1 gal. WARING® blender 1 liter blender 80 oz. Poly bottles to hold all samples. (pre-labeled with sample identification) Cheese Cloth (About 5″×8.5″) Funnel 250 ml Erlenmeyer flask

(10) Procedure:

(11) 1. Receive the horseradish Root samples, if there is enough time to process samples proceed with remainder of this procedure, if not keep horseradish roots in refrigerator until procedure can be run.

(12) 2. Wash each sample of roots separately with water to remove dirt/mud that will be on root.

(13) 3. Record the appearance of each root sample on data sheet also record identity of each root sample. For example: variety, Plot 2 with dry soil can be coded as such: (Use Lab Data Sheet). Also take pictures to compare.

(14) 4. Provide sample number for each root and record it on Lab Data Sheet.

(15) 5. Chop each root sample separately using cleaver (note: preferred hand protection is Metal mesh glove). Chop into small ¼″-½″ pieces. Take a picture for record. Record on Data sheet the appearance of the chopped root, ex: rot present, brown ring, white color.

(16) 6. Weigh each sample of chopped roots separately. Weigh approx. 40 grams (454 grams SA=1 lb) of chopped roots and place into appropriate Poly jar that is labeled with sample ID. Record weigh of sample on data sheet. a. Step 6-9 should proceed with an equal time interval (10-15 min.) between each sample processed.

(17) 7. Place the pre-weighed sample of chopped horseradish root sample into a 1 gal. SS Waring blender. Use a blender bowl that has sharp blending blades.

(18) 8. Add 1 liter/pound of root sample in blender bowl (other proposal has 100 ml for 40 g), secure bowl lid and blend on high speed for 30 seconds. Then rinse the sides of the blender with DI water, blend for 30 more seconds (note: weighed the bottle of water before and after the rinses to try and get a more exact measurement of water used).

(19) 9. Pour off top blended slurry into labeled container. Rinse the sides of the blender and pour the liquid into the container.

(20) 10. Repeat Step 6-9 until all samples are processed.

(21) 11. Allow samples to set in cold room for 1 hour.

(22) 12. When the 1 hour time has elapsed take each sample in same sequence that it was blended and filter through cheesecloth using a funnel and the Erlenmeyer flask. Periodically squeeze the pulp through the cloth to get as much liquid as possible. When no more liquid can be squeezed from the excessive pulp, measure the amount of liquid filtered from the blended mixture, record it onto the data sheet and then pour the liquid into a CLEAN container.

(23) 13. Assay each sample for Peroxidase Activity, following this set of parameters when assaying samples: A. Prepare all Assay reagent that need to be made fresh just prior to starting assays. B. Dilute sample as necessary for assay based on requirements of assay procedure. Once correct dilution is established use same dilution for all other samples. C. Assay a Peroxidase Control at least once during running assay of samples to Confirm validity of assay.

(24) 14. Record assay results in data sheet and complete data sheet.

Enzymatic Assay of Peroxidase (EC 1.11.1.7)

(25) Description

(26) This procedure is for the determination of Peroxidase enzymatic activity using Pyrogallol as the substrate. The continuous spectrophotometric rate determination (A.sub.420, Light path=1 cm) is based on the following reaction:

(27) ##STR00001##

(28) Unit Definition: One unit of peroxidase will form 1.0 milligram of purpurogallin from pyrogallol in 20 seconds at pH 6.0 at 20° C. This purpurogallin (20 second) unit is equivalent to ˜18 μM units per minute at 25° C.

(29) Precautions

(30) Please consult the Safety Data Sheet for information regarding hazards and safe handling practices.

(31) Reagents and Equipment Potassium Phosphate, Monobasic, Anhydrous Hydrogen Peroxide, 30% (w/w) Solution Pyrogallol Cuvettes and thermostatted spectrophotometer

(32) Preparation Instructions

(33) (Storage/Stability)

(34) 1. Use ultrapure water (≥18 M∩.sup.X cm resistivity at 25° C.) for the preparation of reagents.

(35) 2. Phosphate Buffer (100 mM Potassium Phosphate Buffer, pH 6.0 at 20° C.)—Prepare a 13.6 mg/ml solution of Potassium Phosphate, Monobasic, Anhydrous using ultrapure water. Adjust pH to 6.0 at 20° C. with 1.0 M KOH.

(36) 3. After adjusting the pH. Peroxide Solution (0.50% [w/w] Hydrogen Peroxide [H.sub.2O.sub.2] Solution)—Prepare 5 ml of a 1:60 solution in ultrapure water using Hydrogen Peroxide, 30% (w/w) Solution (PREPARE FRESH and store the solution in a capped 4 dram vial).

(37) 4. Pyrogallol Solution (5% [w/v] Pyrogallol Solution)—Prepare a 50 mg/ml solution in ultrapure water using Pyrogallol. PREPARE FRESH AND KEEP FROM LIGHT. Peroxidase Solution—Prepare a 10 mg/ml solution of peroxidase in COLD Phosphate Buffer. At this concentration, the solution is stable for 15 minutes.

(38) 5. Immediately before use, prepare a working solution containing 0.4-0.7 unit/ml of Peroxidase in COLD Phosphate Buffer.

(39) Procedure

(40) Final Assay Concentrations—In a 3.00 ml reaction mix, the final concentrations are 14 mM potassium phosphate, 0.027% (w/w) hydrogen peroxide, 0.5% (w/v) pyrogallol, and 0.04-0.07 unit peroxidase.

(41) 1. Pipette the following reagents into suitable cuvettes:

(42) TABLE-US-00001 Reagent Test Sample (ml) Blank (ml) Ultrapure Water 2.10 2.10 Phosphate Buffer 0.32 0.32 Peroxide Solution 0.16 0.16 Pyrogallol Solution 0.32 0.32

(43) 2. Mix by inversion and equilibrate for 10 minutes to 20° C. in the spectrophotometer. Monitor the A.sub.420 until constant, using a suitably thermostatted spectrophotometer.

(44) Then add:

(45) TABLE-US-00002 Reagent Test Sample (ml) Blank (ml) Phosphate Buffer — 0.10 Enzyme Solution 0.10 —

(46) 3. Immediately mix by inversion and record the increase in A.sub.420 at a rate of 1 reading/second for ˜3 minutes. Use the maximum linear rate to obtain the DA.sub.420/20 seconds for both the Test Sample and Blank.

(47) 4. The Test Sample enzyme concentration may have to be modified in order for the rate (DA.sub.420/20 seconds) to be within the specified absorbance change rate of 0.16-0.28. (Averaged used is 5 microliters but sometimes solution has to be diluted)

(48) Calculations

(49) $\mathrm{Units}\text{/}\mathrm{ml}\mathrm{HRP}=({\mathrm{\Delta A}}_{420}\text{/}20\sec \mathrm{Test}\mathrm{Sample}-\left({\mathrm{\Delta A}}_{420}\text{/}20\sec \mathrm{Blank}\right)\left(3\mathrm{ml}\right)\left(\mathrm{df}\right)(12\left(\mathrm{.Math.}\left({\mathrm{Lmol}}^{-1}{\mathrm{cm}}^{-1}\right)\mathrm{of}1\mathrm{mg}\text{/}\mathrm{ml}\mathrm{Purpurogallin}\mathrm{at}420\mathrm{nm}\right)\left(0.1\left(\mathrm{ml}\mathrm{filtrate}\mathrm{used}\right)\right)$

(50) Where:

(51) 3=Volume (in milliliters) of assay

(52) df=Dilution factor

(53) 12=Extinction coefficient of 1 mg/ml of Purpurogallin at 420 nm

(54) 0.1=Volume (in milliliters) of enzyme used

(55) TABLE-US-00003 units/ml enzyme Units/mg solid = mg solid/ml enzyme units/ml enzyme Units/mg protein = mg protein/ml enzyme UNIT DEFINITION: One unit will form 1.0 milligram of purpurogallin from pyrogallol in 20 seconds at pH 6.0 at 20° C. This purpurogallin (20 seconds) unit is equivalent to approximately 18 mM units per minute at 25° C. FINAL ASSAY CONCENTRATIONS: In a 3.00 ml reaction mix, the final concentrations are 14 mM potassium phosphate, 0.027% (w/w) hydrogen peroxide, 0.5% (w/v) pyrogallol and 0.04¬0.07 unit peroxidase.

REFERENCE:

(56) Chance, B. and Maehly, A. C. (1955) Methods in Enzymology, II, 773-775

(57) TABLE-US-00004 TABLE 1 Selected horseradish seedlings (from directed crosses) and standard varieties for HRP content in root tissue. Selected Horseradish Seedling/Standard Variety HRP units/gram of root tissue K1 (1573 × 315 − R22) 194.5 K2 (647 Open pollinated) 136.3 K3 (1573 × 315 − R24) 136.2 9705-1 73.0  315-1 59.4 9705-2 57.5  315-2 44.7  602-1 38.6  315-3 36.2  602-1 29.5 9705-3 22.7

(58) The breadth and scope of the present disclosure should not be limited by any of the above-described exemplary embodiments, but should be defined only in accordance with the following claims and their equivalents.