Suchira Pande

Array ( [id] => 8502482 [patent_doc_number] => 20120301890 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-11-29 [patent_title] => 'METHODS FOR IDENTIFYING NUCLEIC ACID LIGANDS' [patent_app_type] => utility [patent_app_number] => 13/538461 [patent_app_country] => US [patent_app_date] => 2012-06-29 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 8 [patent_figures_cnt] => 8 [patent_no_of_words] => 9338 [patent_no_of_claims] => 9 [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] =>[firstpage_image] =>[orig_patent_app_number] => 13538461 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9575241 [patent_doc_number] => 08765652 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2014-07-01 [patent_title] => 'Method of making a formulation for deactivating nucleic acids' [patent_app_type] => utility [patent_app_number] => 13/531924 [patent_app_country] => US [patent_app_date] => 2012-06-25 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 24 [patent_figures_cnt] => 27 [patent_no_of_words] => 19522 [patent_no_of_claims] => 13 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 256 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13531924 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8381807 [patent_doc_number] => 20120225433 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-09-06 [patent_title] => 'Gene Expression Markers for Breast Cancer Prognosis' [patent_app_type] => utility [patent_app_number] => 13/473526 [patent_app_country] => US [patent_app_date] => 2012-05-16 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 15839 [patent_no_of_claims] => 27 [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] => 13473526 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8335989 [patent_doc_number] => 20120202698 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-08-09 [patent_title] => 'HIGH THROUGHPUT DETECTION OF MOLECULAR MARKERS BASED ON AFLP AND HIGH THROUGH-PUT SEQUENCING' [patent_app_type] => utility [patent_app_number] => 13/449629 [patent_app_country] => US [patent_app_date] => 2012-04-18 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 2 [patent_figures_cnt] => 2 [patent_no_of_words] => 8255 [patent_no_of_claims] => 25 [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] =>[firstpage_image] =>[orig_patent_app_number] => 13449629 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9205343 [patent_doc_number] => 20140004520 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2014-01-02 [patent_title] => 'MATERIALS AND METHODS FOR PROFILING MICRORNAS' [patent_app_type] => utility [patent_app_number] => 14/000517 [patent_app_country] => US [patent_app_date] => 2012-03-16 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 24 [patent_figures_cnt] => 24 [patent_no_of_words] => 11930 [patent_no_of_claims] => 26 [patent_no_of_ind_claims] => 9 [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] => 14000517 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9280754 [patent_doc_number] => 20140030722 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2014-01-30 [patent_title] => 'NLRP7-BASED DIAGNOSIS OF FEMALE REPRODUCTIVE CONDITIONS' [patent_app_type] => utility [patent_app_number] => 14/005093 [patent_app_country] => US [patent_app_date] => 2012-03-16 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 23 [patent_figures_cnt] => 23 [patent_no_of_words] => 19897 [patent_no_of_claims] => 23 [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] => 14005093 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9205343 [patent_doc_number] => 20140004520 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2014-01-02 [patent_title] => 'MATERIALS AND METHODS FOR PROFILING MICRORNAS' [patent_app_type] => utility [patent_app_number] => 14/000517 [patent_app_country] => US [patent_app_date] => 2012-03-16 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 24 [patent_figures_cnt] => 24 [patent_no_of_words] => 11930 [patent_no_of_claims] => 26 [patent_no_of_ind_claims] => 9 [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] => 14000517 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8465076 [patent_doc_number] => 20120270244 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-10-25 [patent_title] => 'Means and Methods for Diagnosing and/or Treating a Subject at Risk of Developing Heart Failure' [patent_app_type] => utility [patent_app_number] => 13/413536 [patent_app_country] => US [patent_app_date] => 2012-03-06 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 16 [patent_figures_cnt] => 16 [patent_no_of_words] => 13721 [patent_no_of_claims] => 6 [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] =>[firstpage_image] =>[orig_patent_app_number] => 13413536 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8533181 [patent_doc_number] => 08309335 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2012-11-13 [patent_title] => 'Selective 5′ ligation tagging of RNA' [patent_app_type] => utility [patent_app_number] => 13/408851 [patent_app_country] => US [patent_app_date] => 2012-02-29 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 4 [patent_figures_cnt] => 4 [patent_no_of_words] => 41191 [patent_no_of_claims] => 13 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 132 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13408851 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9529951 [patent_doc_number] => 08753821 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2014-06-17 [patent_title] => 'PNA probes, mixtures, methods and kits pertaining to the determination of Mycoplasma and related Mollicutes' [patent_app_type] => utility [patent_app_number] => 13/400316 [patent_app_country] => US [patent_app_date] => 2012-02-20 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 10 [patent_figures_cnt] => 11 [patent_no_of_words] => 13622 [patent_no_of_claims] => 10 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 144 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13400316 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8417035 [patent_doc_number] => 20120244534 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-09-27 [patent_title] => 'CLOSED-SYSTEM MULTI-STAGE NUCLEIC ACID AMPLIFICATION REACTIONS' [patent_app_type] => utility [patent_app_number] => 13/397416 [patent_app_country] => US [patent_app_date] => 2012-02-15 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 14 [patent_figures_cnt] => 14 [patent_no_of_words] => 18599 [patent_no_of_claims] => 35 [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] => 13397416 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9212029 [patent_doc_number] => 20140011206 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2014-01-09 [patent_title] => 'DETERMINATION OF OOCYTE QUALITY' [patent_app_type] => utility [patent_app_number] => 13/984244 [patent_app_country] => US [patent_app_date] => 2012-02-08 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 2 [patent_figures_cnt] => 2 [patent_no_of_words] => 19809 [patent_no_of_claims] => 73 [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] =>[firstpage_image] =>[orig_patent_app_number] => 13984244 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8221663 [patent_doc_number] => 20120135871 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-05-31 [patent_title] => 'HIGH THROUGHPUT DETECTION OF MOLECULAR MARKERS BASED ON AFLP AND HIGH THROUGH-PUT SEQUENCING' [patent_app_type] => utility [patent_app_number] => 13/364799 [patent_app_country] => US [patent_app_date] => 2012-02-02 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 2 [patent_figures_cnt] => 2 [patent_no_of_words] => 8237 [patent_no_of_claims] => 22 [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] =>[firstpage_image] =>[orig_patent_app_number] => 13364799 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 11487319 [patent_doc_number] => 09593385 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2017-03-14 [patent_title] => 'Selective detection of Haemophilus influenzae' [patent_app_type] => utility [patent_app_number] => 13/996913 [patent_app_country] => US [patent_app_date] => 2012-01-26 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 1 [patent_figures_cnt] => 1 [patent_no_of_words] => 12613 [patent_no_of_claims] => 9 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 517 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13996913 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 9262611 [patent_doc_number] => 20130344540 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2013-12-26 [patent_title] => 'METHODS FOR MINIMIZING SEQUENCE SPECIFIC BIAS' [patent_app_type] => utility [patent_app_number] => 13/980302 [patent_app_country] => US [patent_app_date] => 2012-01-10 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 6 [patent_figures_cnt] => 6 [patent_no_of_words] => 7929 [patent_no_of_claims] => 33 [patent_no_of_ind_claims] => 11 [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] => 13980302 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8277804 [patent_doc_number] => 20120171683 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-07-05 [patent_title] => 'ANALYSIS OF FRAGMENTED GENOMIC DNA IN DROPLETS' [patent_app_type] => utility [patent_app_number] => 13/287095 [patent_app_country] => US [patent_app_date] => 2011-11-01 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 4 [patent_figures_cnt] => 4 [patent_no_of_words] => 4584 [patent_no_of_claims] => 17 [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] =>[firstpage_image] =>[orig_patent_app_number] => 13287095 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8054935 [patent_doc_number] => 20120077201 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2012-03-29 [patent_title] => 'Methods and Compositions for Detecting a Drug Resistant EGFR Mutant' [patent_app_type] => utility [patent_app_number] => 13/275161 [patent_app_country] => US [patent_app_date] => 2011-10-17 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 11 [patent_figures_cnt] => 11 [patent_no_of_words] => 17589 [patent_no_of_claims] => 21 [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/A1/0077/20120077201.pdf [firstpage_image] =>[orig_patent_app_number] => 13275161 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 10516247 [patent_doc_number] => 09243287 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2016-01-26 [patent_title] => 'Endpoint TaqMan methods for determining zygosity of cotton comprising Cry1Ac event 3006-210-23' [patent_app_type] => utility [patent_app_number] => 13/267692 [patent_app_country] => US [patent_app_date] => 2011-10-06 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 4 [patent_figures_cnt] => 4 [patent_no_of_words] => 11185 [patent_no_of_claims] => 10 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 217 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13267692 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 8916293 [patent_doc_number] => 20130177918 [patent_country] => US [patent_kind] => A1 [patent_issue_date] => 2013-07-11 [patent_title] => 'INHIBITION METHOD OF NUCLEIC ACID AMPLIFICATION BY PHOTOIRRADIATION AND METHOD OF SELECTIVE NUCLEIC ACID AMPLIFICATION WITH HIGH SENSITIVITY' [patent_app_type] => utility [patent_app_number] => 13/821968 [patent_app_country] => US [patent_app_date] => 2011-09-09 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 4 [patent_figures_cnt] => 4 [patent_no_of_words] => 12025 [patent_no_of_claims] => 29 [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] => 13821968 [rel_patent_id] =>[rel_patent_doc_number] =>)

Array ( [id] => 10104108 [patent_doc_number] => 09139883 [patent_country] => US [patent_kind] => B2 [patent_issue_date] => 2015-09-22 [patent_title] => 'PCR-based detection method for Chlamydia trachomatis' [patent_app_type] => utility [patent_app_number] => 13/220268 [patent_app_country] => US [patent_app_date] => 2011-08-29 [patent_effective_date] => 0000-00-00 [patent_drawing_sheets_cnt] => 0 [patent_figures_cnt] => 0 [patent_no_of_words] => 2375 [patent_no_of_claims] => 8 [patent_no_of_ind_claims] => 1 [patent_words_short_claim] => 119 [patent_maintenance] => 1 [patent_no_of_assignments] => 0 [patent_current_assignee] =>[type] => patent [pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13220268 [rel_patent_id] =>[rel_patent_doc_number] =>)