Seed Sower: Pending Patents Published August 22, 2024

USDA Agricultural Marketing Service sent this bulletin at 08/28/2024 02:23 PM EDT

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SEED SOWER

Pending Patents Published August 22, 2024

METHODS FOR CONTROLLING MERISTEM SIZE FOR CROP IMPROVEMENT

METHODS FOR ENHANCING DISEASE RESISTANCE AND INCREASING BIOMASS YIELD AND SECONDARY METABOLITE QUANTITIES IN CANNABIS SATIVA UTILIZING PLANT DEFENSE-RESPONSE ELICITORS

MODIFIED PLANT ENDOSPERM SPECIFIC PROMOTER AND USE THEREOF

PLANTS RESISTANT TO INFECTION BY PEPINO MOSAIC VIRUS

INBRED SPINACHES 'OS0692', 'OS0694', AND 'OS0699'

VARIETY CORN LINE BDAX4615

VARIETY CORN LINES

CRAB APPLE CULTIVAR NAMED 'B17CRAB7'

LANTANA CAMARA CULTIVAR 'BALLANPAF'

ROSE PLANT NAMED 'KORHULTH 005'

This list includes the titles of all U.S. patent applications published on August 22, 2024 with the following Cooperative Plant Classification: 

A01H: New plants or {non-transgenic} processes for obtaining them; plant reproduction by tissue culture techniques | 6: Angiosperms, i.e. Flowering plants, characterised by their botanic taxonomy 

Patents can have more than one classification. There may be other classifications of interest to plant breeders. View all classifications for A01H.

To assist the reader in understanding each patent application, each title below is followed by the application's abstract and its independent claims.

The abstract is a short summary of the invention that allows the reader to understand the gist of disclosed invention. Independent (standalone) claims define the scope of the patent protection being sought. Independent claims may also be followed by one or more dependent claims, which are not listed here in the interest of brevity. A number of patents from the same applicant with similar abstracts, titles, and claims are listed along with a representative example of the abstract and independent claims in each patent.

To see the application’s complete list of claims: 

  1. Click the patent title to open the application in Patent Center.
  2. Click “Download PDF.”
  3. Find the numbered list of claims, usually located at the end of the document.

Some applications are excluded from Pre-Grant Publication. Those applications include: applications recognized by the Office as no longer pending; applications that are national security classified (see 37 CFR 5.2(c)), subject to a secrecy order under 35 U.S.C. 181, or under national security review; applications that have been issued as a patent in sufficient time to be removed from the publication process; and applications filed with a nonpublication request in compliance with 37 CFR 1.213(a). See MPEP § 1122-1124.

Members of the public have the option of filing third party submissions of prior art to pending patent applications. Prior art may be any evidence that what is claimed in the patent application has already been publicly described. Learn more about third party preissuance submissions.

The Seed Liaison welcomes your feedback, questions, and concerns at seedliaison@usda.gov.

METHODS FOR CONTROLLING MERISTEM SIZE FOR CROP IMPROVEMENT

Applicants: Pairwise Plants Services, Inc.

Abstract: This invention relates to compositions and methods for modifying FACIATED EAR2 (FEA2) genes in plants, optionally to modify meristem size. The invention further relates to plants having increased kernel row number produced using the methods and compositions of the invention.

Independent Claims:

1. A corn plant comprising at least one mutation in an endogenous FACIATED EAR2 (FEA2) gene, wherein the at least one mutation results in an amino acid substitution, the endogenous FEA2 gene comprises a nucleotide sequence having at least 90% sequence identity to the nucleotide sequence SEQ ID NO:72 or SEQ ID NO:73 and/or encodes an amino acid sequence having at least 90% sequence identity to the amino acid sequence SEQ ID NO:74 and the at least one mutation is within a region of the endogenous FEA2 gene, the region comprising a sequence having at least 90% sequence identity to the nucleotide sequence SEQ ID NO:77 or SEQ ID NO:78 and/or encoding a sequence having at least 95% sequence identity to the amino acid sequence SEQ ID NO:75 or SEQ ID NO:76, and an ear of the corn plant comprising the amino substitution comprises an increased kernel row number and a length that is decreased by less than 30% as compared to an ear of a control corn plant not comprising the deletion and grown under the same environmental conditions, wherein the at least one mutation results in a mutated gene comprising the nucleotide sequence of any one of SEQ ID NOs:100, 101, 102, 103, 104, 115, 116, 117, 118, 119, 150, 151, 152, or 153 and/or encoding the amino acid sequence of any one of SEQ ID NOs:135, 136, 137, 138, 139, 155, 156, 157, 173, 174, 175, 176, or 177.

2. A method for producing a corn plant or part thereof comprising at least one cell having a mutated endogenous FEA2 gene, the method comprising contacting a target site in an endogenous FEA2 gene in the corn plant or plant part with a nuclease comprising a cleavage domain and a nucleic acid binding domain, wherein the nucleic acid binding domain binds to a target site in the endogenous FEA2 gene, wherein the endogenous FEA2 gene (a) encodes a sequence having at least 95% sequence identity to the amino acid sequence SEQ ID NO:74; (b) comprises a sequence having at least 90% sequence identity to the nucleotide sequence SEQ ID NO:72 or SEQ ID NO:73; (c) comprises a sequence having at least 90% sequence identity to the nucleotide sequence SEQ ID NO:77 or SEQ ID NO:78; and/or (d) encodes a sequence having at least 90% sequence identity to the amino acid sequence SEQ ID NO:75 or SEQ ID NO:76, thereby producing the corn plant or part thereof comprising at least one cell having a mutation in the endogenous FEA2 gene, wherein the target site is within a region of the endogenous FEA2 gene, the region comprising a sequence having at least 90% sequence identity to the nucleotide sequence SEQ ID NO:77 or SEQ ID NO:78 and/or encoding a sequence having at least 95% sequence identity to the amino acid sequence SEQ ID NO:75 or SEQ ID NO:76, and following cleavage by the nuclease, an edit is made that results in a substitution within the region of the endogenous FEA2 gene of the at least one cell of the corn plant or part thereof, and the corn plant comprising the at least one cell having the substitution produces an ear that comprises an increased kernel row number and a length that is decreased by less than 30% as compared to an ear of a control corn plant not comprising the deletion and grown under the same environmental conditions, and wherein the mutation results in a mutated FEA2 gene comprising the nucleotide sequence of any one of SEQ ID NOs:100, 101, 102, 103, 104, 115, 116, 117, 118, 119, 150, 151, 152, or 153 and/or encoding the amino acid sequence of any one of SEQ ID NOs:135, 136, 137, 138, 139, 155, 156, 157, 173, 174, 175, 176, or 177.

3. A nucleic acid encoding a mutated corn FEA2 protein, wherein the nucleic acid comprises the sequence of any one of SEQ ID NOs:100, 101, 102, 103, 104, 115, 116, 117, 118, 119, 150, 151, 152, or 153 and/or encodes the amino acid sequence of any one of SEQ ID NOs:135, 136, 137, 138, 139, 155, 156, 157, 173, 174, 175, 176, or 177.

4. A modified corn FEA2 protein comprising the amino acid sequence of any one of SEQ ID NOs:135, 136, 137, 138, 139, 155, 156, 157, 173, 174, 175, 176, or 177.

 

METHODS FOR ENHANCING DISEASE RESISTANCE AND INCREASING BIOMASS YIELD AND SECONDARY METABOLITE QUANTITIES IN CANNABIS SATIVA UTILIZING PLANT DEFENSE-RESPONSE ELICITORS

Applicants: Onie Tsabari

Abstract: The present invention discloses methods for improving desired qualities in Cannabis sativa L. Methods include the step of: applying a composition having at least one biostimulant, as an elicitor, to Cannabis sativa L., wherein the at least one biostimulant is at least one material selected from the group consisting of: an exogenous polysaccharide, a peptidoglycan, a peptide, a lipopolysaccharide, a modified lipid, and an enzyme, wherein the at least one biostimulant is derived from at least one source material selected from the group consisting of: plants, bacteria, archaebacteria, fungi, animals, protozoa, algae, and viruses, and wherein the at least one biostimulant is known to be sensed by plant surface-receptors to elicit a plant defense-response. Alternatively, the at least one biostimulant is at least one material selected from the group consisting of: a Pathogen-Associated Molecular Pattern (PAMP), a Microbial-Associated Molecular Pattern (MAMP), and an Herbivore-Associated Molecular Patterns (HAMP).

Independent Claims:

1. A method for improving desired qualities in Cannabis sativa L., the method comprising the step of: (a) applying a composition having at least one biostimulant, as an elicitor, to Cannabis sativa L., wherein said at least one biostimulant is at least one material selected from the group consisting of: an exogenous polysaccharide, a peptidoglycan, a peptide, a lipopolysaccharide, a modified lipid, and an enzyme, wherein said at least one biostimulant is derived from at least one source material selected from the group consisting of: plants, bacteria, archaebacteria, fungi, animals, protozoa, algae, and viruses, and wherein said at least one biostimulant is known to be sensed by plant surface-receptors to elicit a plant defense-response.

 

MODIFIED PLANT ENDOSPERM SPECIFIC PROMOTER AND USE THEREOF

*Non Final Action Mailed*

Applicants: WUHAN HEALTHGEN BIOTECHNOLOGY CORP.

Abstract: Provided is a modified rice endosperm-specific promoter, which has a sequence as shown in any one of SEQ ID. NOs. 1 to 5. The EnhGt13a promoter as shown in SEQ ID NO. 2 drives GUS activity in vitro and mediates the expression of foreign proteins in rice endosperm cells, which is significantly higher than that of the unmodified Gt13a promoter. The promoter can be applied to the fields of improving seed quality, molecular pharming, etc.

Independent Claims:

12. A method for preparing a recombinant feline serum albumin, comprising the following steps: 1) constructing an expression vector or plasmid for expressing the recombinant feline serum albumin in a rice endosperm cell, wherein the expression vector or plasmid comprises: (a) a plant endosperm-specific expression promoter EnhGt13a, and (b) a nucleic acid encoding the feline serum albumin operably linked to the plant endosperm-specific expression promoter EnhGt13a, wherein the plant endosperm-specific expression promoter EnhGt13a has a nucleotide sequence as set forth in SEQ ID NO:2, and the nucleic acid encoding the feline serum albumin has a nucleotide sequence as set forth in SEQ ID NO:7; 2) transferring the expression vector or plasmid of step 1) into a host bacterium to generate a transformed bacterium; 3) transforming rice using the transformed bacterium, thereby generating a transgenic rice; 4) cultivating the transgenic rice of step 3); and 5) extracting the recombinant feline serum albumin from the transgenic rice of step 3) to generate a rice extract comprising the recombinant feline serum albumin, and optionally purifying the recombinant feline serum albumin from the rice extract.

17. A plant expression vector comprising a modified plant endosperm-specific expression promoter EnhGt13a operably linked to a nucleic acid encoding a feline serum albumin, wherein the plant endosperm-specific expression promoter EnhGt13a has the nucleotide sequence as set forth in SEQ ID NO:2, and the nucleic acid encoding the feline serum albumin has the nucleotide sequence as set forth in SEQ ID NO:7.

 

PLANTS RESISTANT TO INFECTION BY PEPINO MOSAIC VIRUS

Applicants: ABIOPEP, S.L.; CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS (CSIC)

Abstract: The present invention relates to plants comprising in their genome a gene that has been inactivated rendering the plant resistant to Pepino mosaic virus (PepMV) infection. The present invention also refers to the inactivation of the gene required for PepMV infection. The invention encompasses parts of these plants and their progeny that show said gene inactivation and as a consequence an improved phenotype in terms of PepMV infection resistance. Methods for obtaining plants, or plant parts or seeds with resistance to PepMV infection are also part of this invention. The present invention further relates to the gene and sequences linked to it as markers for selecting plants resistant to PepMV infection. Therefore, the present invention belongs to the field of agriculture.

Independent Claims:

1. A plant or part thereof, reproductive or propagating plant material or a plant cell, characterized in that it comprises a gene which encodes for a protein, wherein said protein comprises an amino acid sequence with at least 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or 100% sequence identity with SEQ ID NO: 1 and said gene has been inactivated.

15. A use of a gene as a biomarker to select plants with resistance to infection by PepMV or with improved phenotype in terms of PepMV infection resistance, wherein said gene encodes for a protein which comprises an amino acid sequence with at least 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or 100% sequence identity with SEQ ID NO: 1.

18. A use of a marker locus to select plants with resistance to infection by PepMV, wherein said marker locus co-segregates with SEQ ID NO: 4 and is localized in a range of 100000 nucleotides upstream or downstream of SEQ ID NO: 4.

20. A method for selecting plants with resistance to infection by PepMV or with improved phenotype in terms of PepMV infection resistance compared to the wild type comprising the steps of: a) Detecting a gene which encodes for a protein wherein said protein comprises an amino acid sequence with at least 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or 100% sequence identity with SEQ ID NO: 1, and b) Determining if said gene of step a) is inactivated, wherein an inactivated gene is indicative of resistance to infection by PepMV or improved phenotype in terms of PepMV infection resistance compared to the wild type.

 

INBRED SPINACHES 'OS0692', 'OS0694', AND 'OS0699'

Applicants: Enza Zaden Beheer B.V.

Abstract: Inbred spinaches ‘OS0692’, ‘OS0694’, and ‘OS0699’ are described. The disclosure relates to, e.g., seeds or plants thereof, as well as to methods for producing other spinach lines, cultivars, or hybrids derived from the spinaches ‘OS0692’, ‘OS0694’, and ‘OS0699’.

Independent Claims:

1. A spinach seed selected from the group consisting of: (a) spinach seed designated as ‘OS0692’, representative sample of seed having been deposited under NCIMB Accession Number X2; (b) spinach seed designated as ‘OS0694’, representative sample of seed having been deposited under NCIMB Accession Number X3; and (c) spinach seed designated as ‘OS0699’, representative sample of seed having been deposited under NCIMB Accession Number X4.

13. A method of vegetatively propagating a spinach selected from the group consisting of ‘OS0692’, ‘OS0694’, and ‘OS0699’ said method comprising: (a) collecting tissue capable of being propagated from a plant of inbred spinach variety ‘OS0692’, a sample of ‘OS0692’ spinach seed having been deposited under NCIMB Accession Number X2; collecting tissue capable of being propagated from a plant of inbred spinach variety OS0694′, a sample of ‘OS0694’ spinach seed having been deposited under NCIMB Accession Number X3; or collecting tissue capable of being propagated from a plant of inbred spinach variety ‘OS0699’, a sample of ‘OS0699’ spinach seed having been deposited under NCIMB Accession Number X4; and (b) producing a rooted plant from said tissue.

15. A method of making inbred spinach selected from the group consisting of ‘OS0692’, ‘OS0694’, and ‘OS0699’, said method comprising: selecting seeds from the cross of one ‘OS0692’ plant with another ‘OS0692’ plant, a sample of ‘OS0692’ spinach seed having been deposited under NCIMB Accession Number X2; selecting seeds from the cross of one ‘OS0694’ plant with another ‘OS0694’ plant, a sample of ‘OS0694’ spinach seed having been deposited under NCIMB Accession Number X3; or selecting seeds from the cross of one ‘OS0699’ plant with another ‘OS0699’ plant, a sample of ‘OS0699’ spinach seed having been deposited under NCIMB Accession Number X4.

16. A method for producing a seed of an ‘OS0692’-derived spinach plant, comprising the steps of: (a) crossing a spinach plant of variety ‘OS0692’, representative seed of which having been deposited under NCIMB Accession Number X2, with itself; and (b) allowing seed of an ‘OS0692’-derived spinach plant to form.

19. A method for producing a seed of an ‘OS0694’-derived spinach plant, comprising the steps of: (a) crossing a spinach plant of variety ‘OS0694’, representative seed of which having been deposited under NCIMB Accession Number X3, with itself; and (b) allowing seed of an ‘OS0694’-derived spinach plant to form.

22. A method for producing a seed of an ‘OS0699’-derived spinach plant, comprising the steps of: (a) crossing a spinach plant of variety ‘OS0699’, representative seed of which having been deposited under NCIMB Accession Number X4, with itself; and (b) allowing seed of an ‘OS0699’-derived spinach plant to form.

 

VARIETY CORN LINE BDAX4615

Applicants: SYNGENTA CROP PROTECTION AG

Abstract: The present invention provides an inbred corn line designated BDAX4615, methods for producing a corn plant by crossing plants of the inbred line BDAX4615 with plants of another corn plant. The invention further encompasses all parts of inbred corn line BDAX4615, including culturable cells. Additionally provided herein are methods for introducing transgenes into inbred corn line BDAX4615, and plants produced according to these methods.

Independent Claims:

1. A seed of maize variety BDAX4615, wherein representative seed of said maize variety BDAX4615 has been deposited under ATCC Accession Number PTA-______.

2. A plant of maize variety BDAX4615, wherein representative seed of said maize variety BDAX4615 has been deposited under ATCC Accession Number PTA-______.

8. A converted seed, plant, plant part or plant cell of maize variety BDAX4615, representative seed of the maize variety BDAX4615 having been deposited under ATCC accession number PTA-______, wherein the converted seed, plant, plant part or plant cell comprises a locus conversion, and wherein the plant or a plant grown from the converted seed, plant part or plant cell comprises the locus conversion and otherwise comprises the phenotypic characteristics of maize variety BDAX4615 listed in Table 1 when grown under the same environmental conditions.

15. A process of introducing an additional trait into maize plant BDAX4615 comprising: (a) crossing BDAX4615 plants grown from BDAX4615 seeds, representative seeds deposited under ATCC Accession Number PTA-______, with plants of another maize variety that comprise an additional trait to produce hybrid progeny plants, (b) selecting hybrid progeny plants that have the additional trait to produce selected hybrid progeny plants; (c) crossing the selected progeny plants with the BDAX4615 plants to produce backcross progeny plants; (d) selecting for backcross progeny plants that have the additional trait to produce selected backcross progeny plants; and (e) repeating steps (c) and (d) at least three or more times to produce backcross progeny plants that comprise the additional trait and all of the physiological and morphological characteristics of maize inbred plant BDAX4615 when grown in the same environmental conditions.

 

VARIETY CORN LINES

Applicants: SYNGENTA PARTICIPATIONS AG

Abstract: The present invention provides an inbred corn line designated HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209, methods for producing a corn plant by crossing plants of the inbred line HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 with plants of another corn plant. The invention further encompasses all parts of inbred corn line HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209, including culturable cells. Additionally provided herein are methods for introducing transgenes into inbred corn line HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209, and plants produced according to these methods.

Independent Claims:

1. A seed of maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209, wherein representative seed of said maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 has been deposited under ATCC Accession Number ______.

2. A plant of maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209, wherein representative seed of said maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 has been deposited under ATCC Accession Number ______.

8. A converted seed, plant, plant part or plant cell of maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209, representative seed of the maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 having been deposited under ATCC accession number PTA ______, wherein the converted seed, plant, plant part or plant cell comprises a locus conversion, and wherein the plant or a plant grown from the converted seed, plant part or plant cell comprises the locus conversion and otherwise comprises the phenotypic characteristics of maize variety HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 listed in Table 1 when grown under the same environmental conditions.

15. A process of introducing an additional trait into maize plant HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 comprising: (a) crossing HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 plants grown from HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 seeds, representative seeds deposited under ATCC Accession Number, with plants of another maize variety that comprise an additional trait to produce hybrid progeny plants, (b) selecting hybrid progeny plants that have the additional trait to produce selected hybrid progeny plants; (c) crossing the selected progeny plants with the HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 plants to produce backcross progeny plants; (d) selecting for backcross progeny plants that have the additional trait to produce selected backcross progeny plants; and (e) repeating steps (c) and (d) at least three or more times to produce backcross progeny plants that comprise the additional trait and all of the physiological and morphological characteristics of maize inbred plant HID3768, IID5385, KFX5360, KID7244, LFF6371, LFF7869, or MIJ7209 when grown in the same environmental conditions.

 

CRAB APPLE CULTIVAR NAMED 'B17CRAB7'

Applicants: University of Guelph

Abstract: One embodiment relates to the plants, seeds and tissue cultures of crab apple cultivar ‘B17Crab7’, and to methods for producing a crab apple plant produced by crossing such plants with themselves, with another crab apple plant, such as a plant of another genotype, or with vegetatively propagating said plant. Another embodiment further relates to seeds and plants produced by such crossing. Further embodiments relate to parts of such plants, and products produced.

Independent Claims:

1. A plant of crab apple cultivar ‘B17Crab7’, wherein a representative sample of tissue of said crab apple cultivar was deposited under ______.

12. A method of introducing a desired trait into crab apple cultivar ‘B17Crab7’, wherein the method comprises: (a) crossing a ‘B17Crab7’ plant, wherein a representative sample of tissue was deposited under ______, with a plant of another crab apple cultivar that comprises a desired trait to produce progeny plants; (b) selecting one or more progeny plants that have the desired trait; (c) backcrossing the selected progeny plants with ‘B17Crab7’ plants to produce backcross progeny plants; (d) selecting for backcross progeny plants that have the desired trait; and (e) repeating steps (c) and (d) two or more times in succession to produce selected third or higher backcross progeny plants that comprise the desired trait and of the physiological and morphological characteristics of crab apple ‘B17Crab7’.

15. A method for developing a crab apple plant in a plant breeding program, comprising applying plant breeding techniques comprising crossing, recurrent selection, mutation breeding, wherein said mutation breeding selects for a mutation that is spontaneously or naturally induced or artificially induced, backcrossing, pedigree breeding, marker enhanced selection, haploid/double haploid production, or transformation to a plant of crab apple cultivar ‘B17Crab7’, wherein a representative sample of plant tissue of ‘B17Crab7’ was deposited under NCMA No. ______, or its parts, wherein application of said techniques results in development of a crab apple plant.

17. A method of editing the genome of crab apple plant ‘B17Crab7’, wherein a representative sample of plant tissue of ‘B17Crab7’ was deposited under NCMA No. ______, wherein said method is selected from the group comprising zinc finger nucleases, transcription activator-like effector nucleases (TALENs), engineered homing endonucleases/meganucleases, and the clustered regularly interspaced short palindromic repeat (CRISPR)-associated protein9 (Cas9) system.

 

LANTANA CAMARA CULTIVAR 'BALLANPAF'

Applicants: Ball Horticultural Company

Abstract: The invention provides plants of the Lantana camara cultivar designated ‘Ballanpaf’. The invention thus relates to the plants, cells, plant parts, and tissue cultures of the cultivar ‘Ballanpaf’, and to methods for producing a Lantana camara plant produced by crossing a Lantana camara plant of cultivar ‘Ballanpaf’ with another lantana plant, such as a plant of another cultivar. The invention further relates to Lantana camara seeds and plants produced by crossing plants of cultivar ‘Ballanpaf’ with plants of another cultivar. The invention further relates to the genetic complements and hybrid genetic complements of plants of cultivar ‘Ballanpaf’.

Independent Claims:

1. A Lantana camara plant of cultivar ‘Ballanpaf’, a representative sample of plant tissue of said cultivar having been deposited under NCMA Accession No. 202303016.

 

ROSE PLANT NAMED 'KORHULTH 005'

*Notice of Allowance Mailed*

Applicants: W. KORDES' SÖHNE Rosenschulen GmbH & Co KG

Abstract: A new and distinct variety of rose plant, referred to by its cultivar name, ‘KORhulth 005’, is described. The new variety forms in abundance on a substantially continuous basis attractive, pink-colored blossoms with purple blotches. The vegetation is vigorous, and the growth habit is compact spreading. Attractive ornamental foliage is formed.

Independent Claims:

1. A new and distinct variety of rose plant named ‘KORhulth 005’ characterized by the following combination of characteristics: (a) forms attractive pink-colored blossoms with purple blotches, (b) exhibits a compact spreading growth habit, and (c) provides vigorous foliage; substantially as herein shown and described.