Bratislav Stankovic

Array ( [id] => 18612684 [patent_doc_number] => 20230279418 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-09-07 [patent_title] => PLANT HAPLOID INDUCTION [patent_app_type] => utility [patent_app_number] => 17/925789 [patent_app_country] => US [patent_app_date] => 2021-05-28 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 47099 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -16 [patent_words_short_claim] => 13 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17925789 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18612684 [patent_doc_number] => 20230279418 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-09-07 [patent_title] => PLANT HAPLOID INDUCTION [patent_app_type] => utility [patent_app_number] => 17/925789 [patent_app_country] => US [patent_app_date] => 2021-05-28 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 47099 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -16 [patent_words_short_claim] => 13 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17925789 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18433413 [patent_doc_number] => 20230180707 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-15 [patent_title] => METHOD OF PROVIDING SEEDSTOCKS OF SPHAGNUM [patent_app_type] => utility [patent_app_number] => 17/921478 [patent_app_country] => US [patent_app_date] => 2021-05-12 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 19560 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -19 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17921478 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18433413 [patent_doc_number] => 20230180707 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-15 [patent_title] => METHOD OF PROVIDING SEEDSTOCKS OF SPHAGNUM [patent_app_type] => utility [patent_app_number] => 17/921478 [patent_app_country] => US [patent_app_date] => 2021-05-12 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 19560 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -19 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17921478 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18433413 [patent_doc_number] => 20230180707 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-15 [patent_title] => METHOD OF PROVIDING SEEDSTOCKS OF SPHAGNUM [patent_app_type] => utility [patent_app_number] => 17/921478 [patent_app_country] => US [patent_app_date] => 2021-05-12 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 19560 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -19 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17921478 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18433413 [patent_doc_number] => 20230180707 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-15 [patent_title] => METHOD OF PROVIDING SEEDSTOCKS OF SPHAGNUM [patent_app_type] => utility [patent_app_number] => 17/921478 [patent_app_country] => US [patent_app_date] => 2021-05-12 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 19560 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -19 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17921478 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18433396 [patent_doc_number] => 20230180690 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-15 [patent_title] => STEVIA PLANT WITH HIGH CONTENT OF REBAUDIOSIDE E [patent_app_type] => utility [patent_app_number] => 17/924197 [patent_app_country] => US [patent_app_date] => 2021-05-11 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 18719 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -16 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17924197 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18583270 [patent_doc_number] => 20230265530 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-08-24 [patent_title] => HIGH STEVIOL GLYCOSIDE-CONTAINING STEVIA PLANT AND METHOD FOR SCREENING SAME [patent_app_type] => utility [patent_app_number] => 17/924547 [patent_app_country] => US [patent_app_date] => 2021-05-11 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 11165 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -16 [patent_words_short_claim] => 61 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17924547 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18417680 [patent_doc_number] => 20230172136 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-08 [patent_title] => REBAUDIOSIDE D-RICH STEVIA PLANT [patent_app_type] => utility [patent_app_number] => 17/924507 [patent_app_country] => US [patent_app_date] => 2021-05-11 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 25062 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -21 [patent_words_short_claim] => 32 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17924507 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18433396 [patent_doc_number] => 20230180690 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-06-15 [patent_title] => STEVIA PLANT WITH HIGH CONTENT OF REBAUDIOSIDE E [patent_app_type] => utility [patent_app_number] => 17/924197 [patent_app_country] => US [patent_app_date] => 2021-05-11 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 18719 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -16 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17924197 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 17512063 [patent_doc_number] => 11291174 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2022-04-05 [patent_title] => Methods for simultaneous pooled genotyping [patent_app_type] => utility [patent_app_number] => 17/229818 [patent_app_country] => US [patent_app_date] => 2021-04-13 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 11 [patent_figures_cnt] => 16 [patent_no_of_words] => 24967 [patent_no_of_claims] => 15 [patent_no_of_ind_claims] => 2 [patent_words_short_claim] => 202 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17229818 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18580871 [patent_doc_number] => 20230263121 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-08-24 [patent_title] => MODULATION OF ENDOGENOUS MOGROSIDE PATHWAY GENES IN WATERMELON AND OTHER CUCURBITS [patent_app_type] => utility [patent_app_number] => 17/907742 [patent_app_country] => US [patent_app_date] => 2021-03-30 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 42240 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -30 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17907742 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18349813 [patent_doc_number] => 20230137924 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-05-04 [patent_title] => TRANSCRIPTION REGULATING NUCLEOTIDE SEQUENCES AND METHODS OF USE [patent_app_type] => utility [patent_app_number] => 17/910432 [patent_app_country] => US [patent_app_date] => 2021-03-11 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 14857 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -16 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17910432 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 19840326 [patent_doc_number] => 12252698 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2025-03-18 [patent_title] => Insecticidal proteins [patent_app_type] => utility [patent_app_number] => 17/787398 [patent_app_country] => US [patent_app_date] => 2020-12-14 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 26248 [patent_no_of_claims] => 10 [patent_no_of_ind_claims] => 3 [patent_words_short_claim] => 66 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17787398 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18159251 [patent_doc_number] => 20230025843 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-01-26 [patent_title] => MAMMAL KINASE INHIBITORS TO PROMOTE IN VITRO EMBRYOGENESIS INDUCTION OF PLANTS [patent_app_type] => utility [patent_app_number] => 17/780331 [patent_app_country] => US [patent_app_date] => 2020-11-25 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 12129 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -13 [patent_words_short_claim] => 45 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17780331 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18159251 [patent_doc_number] => 20230025843 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-01-26 [patent_title] => MAMMAL KINASE INHIBITORS TO PROMOTE IN VITRO EMBRYOGENESIS INDUCTION OF PLANTS [patent_app_type] => utility [patent_app_number] => 17/780331 [patent_app_country] => US [patent_app_date] => 2020-11-25 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 12129 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -13 [patent_words_short_claim] => 45 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17780331 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 17798440 [patent_doc_number] => 11412698 [patent_country] => US [patent_kind] => B1 [patent_issue_date] => 2022-08-16 [patent_title] => Soybean variety 5PRYP61 [patent_app_type] => utility [patent_app_number] => 17/090412 [patent_app_country] => US [patent_app_date] => 2020-11-05 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 20407 [patent_no_of_claims] => 20 [patent_no_of_ind_claims] => 3 [patent_words_short_claim] => 23 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17090412 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 17556290 [patent_doc_number] => 11312973 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2022-04-26 [patent_title] => Plant cytochrome P450 [patent_app_type] => utility [patent_app_number] => 17/084878 [patent_app_country] => US [patent_app_date] => 2020-10-30 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 15 [patent_figures_cnt] => 28 [patent_no_of_words] => 12416 [patent_no_of_claims] => 15 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 187 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17084878 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 16712339 [patent_doc_number] => 20210079486 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2021-03-18 [patent_title] => METHODS FOR PRODUCING CORN PLANTS WITH DOWNY MILDEW RESISTANCE AND COMPOSITIONS THEREOF [patent_app_type] => utility [patent_app_number] => 17/082851 [patent_app_country] => US [patent_app_date] => 2020-10-28 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 35286 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -22 [patent_words_short_claim] => 2 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17082851 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 18347382 [patent_doc_number] => 20230135492 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2023-05-04 [patent_title] => NUCLEIC ACID MOLECULE OF TRANSGENIC MAIZE EVENT ME240913 THAT EXPRESSES CRY1DA PROTEIN, CELL, PLANT AND TRANSGENIC SEED, USES THEREOF, PLANT PRODUCT, METHOD, KIT AND AMPLICON FOR DETECTING THE EVENT, AND METHODS TO PRODUCE A TRANSGENIC PLANT AND TO CONTROL LEPIDOPTERAN INSECT PESTS [patent_app_type] => utility [patent_app_number] => 17/775168 [patent_app_country] => US [patent_app_date] => 2020-10-13 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 15032 [patent_no_of_claims] => 0 [patent_no_of_ind_claims] => -20 [patent_words_short_claim] => 20 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => publication [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17775168 [rel_patent_id] =>[rel_patent_doc_number] =>)