Application number | Title of the application | Filing Date | Status |
---|
Array
(
[id] => 8198338
[patent_doc_number] => 20120122180
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-05-17
[patent_title] => 'INCORPORATION OF TYPE III POLYKETIDE SYNTHASES INTO MULTIDOMAIN PROTEINS OF THE TYPE I AND III POLYKETIDE SYNTHASE AND FATTY ACID SYNTHASE FAMILIES'
[patent_app_type] => utility
[patent_app_number] => 13/294939
[patent_app_country] => US
[patent_app_date] => 2011-11-11
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 17
[patent_figures_cnt] => 17
[patent_no_of_words] => 34755
[patent_no_of_claims] => 18
[patent_no_of_ind_claims] => 3
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0122/20120122180.pdf
[firstpage_image] =>[orig_patent_app_number] => 13294939
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/294939 | INCORPORATION OF TYPE III POLYKETIDE SYNTHASES INTO MULTIDOMAIN PROTEINS OF THE TYPE I AND III POLYKETIDE SYNTHASE AND FATTY ACID SYNTHASE FAMILIES | Nov 10, 2011 | Abandoned |
Array
(
[id] => 9148316
[patent_doc_number] => 20130302839
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-11-14
[patent_title] => 'ANALYSIS OF DIRECT FACTOR Xa INHIBITORS'
[patent_app_type] => utility
[patent_app_number] => 13/885725
[patent_app_country] => US
[patent_app_date] => 2011-11-07
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 2
[patent_figures_cnt] => 2
[patent_no_of_words] => 7897
[patent_no_of_claims] => 16
[patent_no_of_ind_claims] => 5
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13885725
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/885725 | Analysis of direct factor Xa inhibitors | Nov 6, 2011 | Issued |
Array
(
[id] => 9068672
[patent_doc_number] => 20130260428
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-10-03
[patent_title] => 'PROCESS FOR PREPARING BIODIESEL FROM RENEWABLE GREASE WITH LIPASE AS CATALYST AND ONLINE DEHYDRATION'
[patent_app_type] => utility
[patent_app_number] => 13/883747
[patent_app_country] => US
[patent_app_date] => 2011-11-04
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 1
[patent_figures_cnt] => 1
[patent_no_of_words] => 5808
[patent_no_of_claims] => 10
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13883747
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/883747 | Process for preparing biodiesel from renewable oil and fat catalyzed by lipase with online dehydration | Nov 3, 2011 | Issued |
Array
(
[id] => 9107634
[patent_doc_number] => 20130280766
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-10-24
[patent_title] => 'HYBRID POLYKETIDE SYNTHASES'
[patent_app_type] => utility
[patent_app_number] => 13/882099
[patent_app_country] => US
[patent_app_date] => 2011-10-31
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 19
[patent_figures_cnt] => 19
[patent_no_of_words] => 14690
[patent_no_of_claims] => 40
[patent_no_of_ind_claims] => 10
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13882099
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/882099 | Hybrid polyketide synthases | Oct 30, 2011 | Issued |
Array
(
[id] => 9843985
[patent_doc_number] => 08945900
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2015-02-03
[patent_title] => 'Variants of fungal serine protease'
[patent_app_type] => utility
[patent_app_number] => 13/283891
[patent_app_country] => US
[patent_app_date] => 2011-10-28
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 23
[patent_figures_cnt] => 32
[patent_no_of_words] => 26257
[patent_no_of_claims] => 31
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 270
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => patent
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13283891
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/283891 | Variants of fungal serine protease | Oct 27, 2011 | Issued |
Array
(
[id] => 8892451
[patent_doc_number] => 20130165635
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-06-27
[patent_title] => 'CLONING AND BASE SEQUENCE DETERMINATION OF NOVEL ITURIN BIOSYNTHESIS GENE FROM ANTAGONISTIC MICROORGANISM BACILLUS SUBTILIS AND CHARACTERISTICS OF THE GENE'
[patent_app_type] => utility
[patent_app_number] => 13/699104
[patent_app_country] => US
[patent_app_date] => 2011-10-26
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 24
[patent_figures_cnt] => 24
[patent_no_of_words] => 14668
[patent_no_of_claims] => 13
[patent_no_of_ind_claims] => 8
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13699104
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/699104 | Cloning and base sequence determination of novel iturin biosynthesis gene from antagonistic microorganism Bacillus subtilis and characteristics of the gene | Oct 25, 2011 | Issued |
Array
(
[id] => 7767069
[patent_doc_number] => 20120034666
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-02-09
[patent_title] => 'METHODS OF INCREASING DIHYDROXY ACID DEHYDRATASE ACTIVITY TO IMPROVE PRODUCTION OF FUELS, CHEMICALS, AND AMINO ACIDS'
[patent_app_type] => utility
[patent_app_number] => 13/279166
[patent_app_country] => US
[patent_app_date] => 2011-10-21
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 17
[patent_figures_cnt] => 17
[patent_no_of_words] => 56141
[patent_no_of_claims] => 20
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0034/20120034666.pdf
[firstpage_image] =>[orig_patent_app_number] => 13279166
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/279166 | METHODS OF INCREASING DIHYDROXY ACID DEHYDRATASE ACTIVITY TO IMPROVE PRODUCTION OF FUELS, CHEMICALS, AND AMINO ACIDS | Oct 20, 2011 | Abandoned |
Array
(
[id] => 8140595
[patent_doc_number] => 20120094851
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-04-19
[patent_title] => 'Multi-through Hole Testing Plate for High Throughput Screening'
[patent_app_type] => utility
[patent_app_number] => 13/276179
[patent_app_country] => US
[patent_app_date] => 2011-10-18
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 7
[patent_figures_cnt] => 7
[patent_no_of_words] => 7237
[patent_no_of_claims] => 12
[patent_no_of_ind_claims] => 4
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0094/20120094851.pdf
[firstpage_image] =>[orig_patent_app_number] => 13276179
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/276179 | Multi-through Hole Testing Plate for High Throughput Screening | Oct 17, 2011 | Abandoned |
Array
(
[id] => 7776724
[patent_doc_number] => 20120040080
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-02-16
[patent_title] => 'METHODS FOR THE ECONOMICAL PRODUCTION OF BIOFUEL PRECURSOR THAT IS ALSO A BIOFUEL FROM BIOMASS'
[patent_app_type] => utility
[patent_app_number] => 13/269457
[patent_app_country] => US
[patent_app_date] => 2011-10-07
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 37
[patent_figures_cnt] => 37
[patent_no_of_words] => 64824
[patent_no_of_claims] => 18
[patent_no_of_ind_claims] => 2
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0040/20120040080.pdf
[firstpage_image] =>[orig_patent_app_number] => 13269457
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/269457 | METHODS FOR THE ECONOMICAL PRODUCTION OF BIOFUEL PRECURSOR THAT IS ALSO A BIOFUEL FROM BIOMASS | Oct 6, 2011 | Abandoned |
Array
(
[id] => 11790198
[patent_doc_number] => 09399770
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2016-07-26
[patent_title] => 'Innovative discovery of therapeutic, diagnostic, and antibody compositions related to protein fragments of tryptophanyl-tRNA synthetases'
[patent_app_type] => utility
[patent_app_number] => 13/877899
[patent_app_country] => US
[patent_app_date] => 2011-10-06
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 8
[patent_figures_cnt] => 8
[patent_no_of_words] => 85815
[patent_no_of_claims] => 15
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 101
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => patent
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13877899
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/877899 | Innovative discovery of therapeutic, diagnostic, and antibody compositions related to protein fragments of tryptophanyl-tRNA synthetases | Oct 5, 2011 | Issued |
Array
(
[id] => 8410169
[patent_doc_number] => 08273565
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2012-09-25
[patent_title] => 'Methods of increasing dihydroxy acid dehydratase activity to improve production of fuels, chemicals, and amino acids'
[patent_app_type] => utility
[patent_app_number] => 13/246693
[patent_app_country] => US
[patent_app_date] => 2011-09-27
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 7
[patent_figures_cnt] => 6
[patent_no_of_words] => 49275
[patent_no_of_claims] => 19
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 87
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => patent
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13246693
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/246693 | Methods of increasing dihydroxy acid dehydratase activity to improve production of fuels, chemicals, and amino acids | Sep 26, 2011 | Issued |
Array
(
[id] => 7732468
[patent_doc_number] => 20120015417
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-01-19
[patent_title] => 'METHODS OF INCREASING DIHYDROXY ACID DEHYDRATASE ACTIVITY TO IMPROVE PRODUCTION OF FUELS, CHEMICALS, AND AMINO ACIDS'
[patent_app_type] => utility
[patent_app_number] => 13/246718
[patent_app_country] => US
[patent_app_date] => 2011-09-27
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 7
[patent_figures_cnt] => 7
[patent_no_of_words] => 49264
[patent_no_of_claims] => 20
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0015/20120015417.pdf
[firstpage_image] =>[orig_patent_app_number] => 13246718
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/246718 | METHODS OF INCREASING DIHYDROXY ACID DEHYDRATASE ACTIVITY TO IMPROVE PRODUCTION OF FUELS, CHEMICALS, AND AMINO ACIDS | Sep 26, 2011 | Abandoned |
Array
(
[id] => 9401466
[patent_doc_number] => 08691518
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2014-04-08
[patent_title] => 'Systems and methods for predicting response to minoxidil for the treatment of androgenetic alopecia'
[patent_app_type] => utility
[patent_app_number] => 13/245783
[patent_app_country] => US
[patent_app_date] => 2011-09-26
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 2
[patent_figures_cnt] => 2
[patent_no_of_words] => 2792
[patent_no_of_claims] => 23
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 197
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => patent
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13245783
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/245783 | Systems and methods for predicting response to minoxidil for the treatment of androgenetic alopecia | Sep 25, 2011 | Issued |
Array
(
[id] => 8055029
[patent_doc_number] => 20120077251
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-03-29
[patent_title] => 'Methods and Compositions for Targeting Heterologous Integral Membrane Proteins to the Cyanobacterial Plasma Membrane'
[patent_app_type] => utility
[patent_app_number] => 13/232945
[patent_app_country] => US
[patent_app_date] => 2011-09-14
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 2
[patent_figures_cnt] => 2
[patent_no_of_words] => 16051
[patent_no_of_claims] => 11
[patent_no_of_ind_claims] => 3
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0077/20120077251.pdf
[firstpage_image] =>[orig_patent_app_number] => 13232945
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/232945 | Methods and Compositions for Targeting Heterologous Integral Membrane Proteins to the Cyanobacterial Plasma Membrane | Sep 13, 2011 | Abandoned |
Array
(
[id] => 9212059
[patent_doc_number] => 20140011237
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2014-01-09
[patent_title] => 'Chinese Hamster Ovary Cell Line'
[patent_app_type] => utility
[patent_app_number] => 13/822371
[patent_app_country] => US
[patent_app_date] => 2011-09-14
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 4
[patent_figures_cnt] => 4
[patent_no_of_words] => 3034
[patent_no_of_claims] => 8
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13822371
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/822371 | Chinese hamster ovary cell line | Sep 13, 2011 | Issued |
Array
(
[id] => 7977223
[patent_doc_number] => 08071358
[patent_country] => US
[patent_kind] => B1
[patent_issue_date] => 2011-12-06
[patent_title] => 'Methods of increasing dihydroxy acid dehydratase activity to improve production of fuels, chemicals, and amino acids'
[patent_app_type] => utility
[patent_app_number] => 13/228342
[patent_app_country] => US
[patent_app_date] => 2011-09-08
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 7
[patent_figures_cnt] => 6
[patent_no_of_words] => 49264
[patent_no_of_claims] => 20
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 58
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => patent
[pdf_file] => patents/08/071/08071358.pdf
[firstpage_image] =>[orig_patent_app_number] => 13228342
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/228342 | Methods of increasing dihydroxy acid dehydratase activity to improve production of fuels, chemicals, and amino acids | Sep 7, 2011 | Issued |
Array
(
[id] => 8159130
[patent_doc_number] => 20120100564
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-04-26
[patent_title] => 'Prediction of Memapsin 2 Cleavage Sites'
[patent_app_type] => utility
[patent_app_number] => 13/221467
[patent_app_country] => US
[patent_app_date] => 2011-08-30
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 8
[patent_figures_cnt] => 8
[patent_no_of_words] => 11140
[patent_no_of_claims] => 20
[patent_no_of_ind_claims] => 2
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0100/20120100564.pdf
[firstpage_image] =>[orig_patent_app_number] => 13221467
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/221467 | Prediction of Memapsin 2 Cleavage Sites | Aug 29, 2011 | Abandoned |
Array
(
[id] => 8928576
[patent_doc_number] => 20130184336
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-07-18
[patent_title] => 'PHARMACEUTICAL COMPOSITION FOR SUPPRESSING ANGIOGENESIS, AND METHOD FOR SCREENING ACTIVE MATERIAL FOR SUPPRESSING ANGIOGENESIS'
[patent_app_type] => utility
[patent_app_number] => 13/817738
[patent_app_country] => US
[patent_app_date] => 2011-08-18
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 5
[patent_figures_cnt] => 5
[patent_no_of_words] => 5839
[patent_no_of_claims] => 11
[patent_no_of_ind_claims] => 7
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13817738
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/817738 | Pharmaceutical composition for suppressing angiogenesis, and method for screening active material for suppressing angiogenesis | Aug 17, 2011 | Issued |
Array
(
[id] => 7580296
[patent_doc_number] => 20110294179
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2011-12-01
[patent_title] => 'METHOD FOR PRODUCING BUTANOL USING TWO-PHASE EXTRACTIVE FERMENTATION'
[patent_app_type] => utility
[patent_app_number] => 13/210644
[patent_app_country] => US
[patent_app_date] => 2011-08-16
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 10
[patent_figures_cnt] => 10
[patent_no_of_words] => 19997
[patent_no_of_claims] => 23
[patent_no_of_ind_claims] => 6
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] => publications/A1/0294/20110294179.pdf
[firstpage_image] =>[orig_patent_app_number] => 13210644
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/210644 | METHOD FOR PRODUCING BUTANOL USING TWO-PHASE EXTRACTIVE FERMENTATION | Aug 15, 2011 | Abandoned |
Array
(
[id] => 8977740
[patent_doc_number] => 20130211170
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-08-15
[patent_title] => 'ISOPROPYL ALCOHOL-PRODUCING BACTERIUM HAVING IMPROVED PRODUCTIVITY BY GNTR DESTRUCTION'
[patent_app_type] => utility
[patent_app_number] => 13/816077
[patent_app_country] => US
[patent_app_date] => 2011-08-11
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 26882
[patent_no_of_claims] => 14
[patent_no_of_ind_claims] => 1
[patent_words_short_claim] => 0
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13816077
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/816077 | Isopropyl alcohol-producing bacterium having improved productivity by GntR destruction | Aug 10, 2011 | Issued |