[1]JournalofMedicinalChemistry,1992,vol.35,#12,p.2243-2247
[2]JournaloftheAmericanChemicalSociety,
[3]JournaloftheAmericanChemicalSociety,2009,vol.131,p.251-262
[4]Patent:US2009/275574,2009,A1,.Locationinpatent:Page/Pagecolumn16
[5]Patent:WO2013/30665,2013,A1,.Locationinpatent:Page/Pagecolumn175;176
[6]Patent:WO2014/135955,2014,A1,.Locationinpatent:Paragraph0516
[7]Patent:WO2008/124878,2008,A1,.Locationinpatent:Page/Pagecolumn82-83
[8]Patent:WO2008/128058,2008,A1,.Locationinpatent:Page/Pagecolumn11
[9]Patent:WO2017/75056,2017,A1,.Locationinpatent:Paragraph0848
[10]CanadianJournalofChemistry,1994,vol.72,#7,p.1699-1704
[11]JournaloftheChemicalSociety.PerkinTransactions2,1997,#6,p.1221-1234
[12]JournalofOrganicChemistry,2006,vol.71,#22,p.8424-8430
[13]ACSMedicinalChemistryLetters,2014,vol.5,#8,p.851-856
[14]BioorganicandMedicinalChemistryLetters,2015,vol.25,#3,p.695-700
[15]Patent:US2009/275616,2009,A1,.Locationinpatent:Page/Pagecolumn7
[16]Patent:WO2012/151343,2012,A1,.Locationinpatent:Page/Pagecolumn35-36
[17]AngewandteChemie-InternationalEdition,2016,vol.55,#5,p.1816-1819
[18]Angew.Chem.,2016,vol.128,#5,p.1848-1851,4
[19]Patent:WO2008/119713,2008,A1,.Locationinpatent:Page/Pagecolumn50-51
[20]Patent:WO2009/37294,2009,A1,.Locationinpatent:Page/Pagecolumn98
[21]Patent:US2006/292073,2006,A1,.Locationinpatent:Page/Pagecolumn11-12
[22]ChemicalandPharmaceuticalBulletin,1993,vol.41,#11,p.1971-1986
[23]Patent:WO2008/53136,2008,A1,.Locationinpatent:Page/Pagecolumn41
[24]Patent:US2011/280808,2011,A1,.Locationinpatent:Page/Pagecolumn59
[25]JournalofPolymerScience,PartA:PolymerChemistry,2011,vol.49,#2,p.369-380
[26]Patent:CN104151209,2016,B,.Locationinpatent:Paragraph0023-0025
[27]Patent:US2002/156081,2002,A1,
[28]Patent:US2002/156081,2002,A1,
[29]Patent:US6921763,2005,B2,
[30]Patent:US6921763,2005,B2,
[31]Patent:US2012/53180,2012,A1,.Locationinpatent:Page/Pagecolumn6
[32]TetrahedronLetters,2001,vol.42,#38,p.6633-6636
[33]Patent:WO2005/87751,2005,A2,.Locationinpatent:Page/Pagecolumn166
[34]Patent:WO2005/70407,2005,A1,.Locationinpatent:Page/Pagecolumn243-244
[35]Patent:WO2005/87215,2005,A1,.Locationinpatent:Page/Pagecolumn277-278
[36]Patent:WO2005/87752,2005,A2,.Locationinpatent:Page/Pagecolumn110-111
[37]Patent:WO2017/9651,2017,A1,.Locationinpatent:Page/Pagecolumn49
[38]Patent:WO2011/143495,2011,A1,.Locationinpatent:Page/Pagecolumn92
[39]EuropeanJournalofMedicinalChemistry,2014,vol.89,p.503-523
[40]Patent:US6211219,2001,B1,
[41]Patent:WO2016/44626,2016,A1,.Locationinpatent:Paragraph00518
[42]Patent:WO2009/37294,2009,A1,.Locationinpatent:Page/Pagecolumn97-98
[43]Patent:WO2007/107565,2007,A1,.Locationinpatent:Page/Pagecolumn48-49
[44]Patent:WO2008/119721,2008,A1,.Locationinpatent:Page/Pagecolumn53
[45]Patent:WO2007/107566,2007,A1,.Locationinpatent:Page/Pagecolumn46
[46]Patent:WO2007/107567,2007,A1,.Locationinpatent:Page/Pagecolumn45
[47]Patent:WO2015/17502,2015,A1,.Locationinpatent:Paragraph00312
[48]Patent:US2005/182045,2005,A1,.Locationinpatent:Page/Pagecolumn50
[49]Patent:WO2014/198808,2014,A1,.Locationinpatent:Page/Pagecolumn138
[50]OrganicMassSpectrometry,1982,vol.17,#2,p.102-106
[51]JournalofMaterialsChemistry,1997,vol.7,#3,p.391-401
[52]Synlett,1998,#7,p.723-724
[53]JournalofMassSpectrometry,1998,vol.33,#3,p.229-241
[54]JournalofOrganicChemistry,1998,vol.63,#23,p.8320-8330
[55]Tetrahedron,2002,vol.58,#1,p.129-133
[56]CanadianJournalofChemistry,2003,vol.81,#1,p.81-108
[57]JournalofMedicinalChemistry,2000,vol.43,#17,p.3322-3334
[58]JournaloftheChemicalSociety.PerkinTransactions1,2002,#20,p.2251-2255
[59]Heterocycles,2007,vol.71,#2,p.419-428
[60]Patent:US2002/156081,2002,A1,
[61]Patent:US6071954,2000,A,
[62]Patent:US5536725,1996,A,
[63]Patent:US5595992,1997,A,
[64]Patent:US5691351,1997,A,
[65]Patent:EP970067,2003,B1,
[66]Patent:US6921763,2005,B2,
[67]JournalofMedicinalChemistry,2008,vol.51,#23,p.7523-7531
[68]Patent:WO2010/6086,2010,A2,.Locationinpatent:Page/Pagecolumn87-88
[69]EuropeanJournalofOrganicChemistry,2010,#6,p.1017-1020
[70]Patent:WO2010/57121,2010,A1,.Locationinpatent:Page/Pagecolumn161
[71]Patent:US2007/197526,2007,A1,.Locationinpatent:Page/Pagecolumn24;25
[72]Patent:WO2011/7146,2011,A1,.Locationinpatent:Page/Pagecolumn60
[73]JournalofOrganicChemistry,2011,vol.76,#19,p.7706-7719
[74]OrganicLetters,2012,vol.14,#1,p.62-65
[75]Patent:US2012/71461,2012,A1,.Locationinpatent:Page/Pagecolumn143
[76]OrganicandBiomolecularChemistry,2012,vol.10,#36,p.7321-7326
[77]EuropeanJournalofOrganicChemistry,2013,#18,p.3741-3750
[78]RSCAdvances,2014,vol.4,#5,p.2226-2234
[79]Patent:WO2014/48065,2014,A1,.Locationinpatent:Page/Pagecolumn91
[80]Synthesis(Germany),2014,vol.46,#11,p.1455-1462
[81]Patent:WO2014/139325,2014,A1,.Locationinpatent:Page/Pagecolumn254
[82]Patent:EP2813505,2014,A1,.Locationinpatent:Paragraph0212
[83]Chemistry-AEuropeanJournal,2015,vol.21,#7,p.2785-2788
[84]JournaloftheAmericanChemicalSociety,2015,vol.137,#25,p.7998-8001
[85]Patent:WO2015/138220,2015,A1,.Locationinpatent:Page/Pagecolumn88
[86]Patent:US2015/329529,2015,A1,.Locationinpatent:Paragraph0507-0508
[87]Patent:WO2015/181186,2015,A1,.Locationinpatent:Page/Pagecolumn126;127
[88]Small,2016,vol.12,#10,p.1378-1390
[89]Patent:WO2016/168641,2016,A1,.Locationinpatent:Page/Pagecolumn196
[90]Patent:WO2017/46604,2017,A1,.Locationinpatent:Paragraph00286;00287;00288
[91]Patent:WO2017/4500,2017,A1,.Locationinpatent:Page/Pagecolumn162
[92]Patent:US2017/247323,2017,A1,.Locationinpatent:Paragraph0479;0480
[93]Patent:WO2018/5860,2018,A1,.Locationinpatent:Page/Pagecolumn172;209;210
[94]DaltonTransactions,2018,vol.47,#26,p.8738-8745
[1]Patent:US2003/153752,2003,A1,
[1]OrganicandBiomolecularChemistry,2013,vol.11,#26,p.4379-4382
[1]Patent:US6096780,2000,A,
[1]JournaloftheAmericanChemicalSociety,1967,vol.89,p.5190-5198
[1]JournalofMedicinalChemistry,1989,vol.32,p.351-357
[2]Patent:US5962507,1999,A
[3]Patent:US5726205,1998,A
[1]CanadianJournalofChemistry,1997,vol.75,p.656-664
[2]Patent:WO2014/9302,2014,A1.Locationinpatent:Page/Pagecolumn89
[3]Patent:US2015/158879,2015,A1.Locationinpatent:Paragraph0437;0438
[4]Patent:US2016/200741,2016,A1.Locationinpatent:Paragraph0438-0439
[5]Patent:WO2008/119716,2008,A1.Locationinpatent:Page/Pagecolumn49
[6]TetrahedronLetters,1995,vol.36,p.1043-1046
[7]BioorganicandMedicinalChemistry,1996,vol.4,p.413-418
[8]Synthesis,2001,p.437-443
170384-29-9
[1]JournalofOrganicChemistry,1996,vol.61,p.4999-5003
[1]JournaloftheAmericanChemicalSociety,1998,vol.120,p.5713-5722
Title: 13,13-Dimethyl-des-C,D analogues of (20S)-1α,25-dihydroxy-2-methylene-19-norvitamin D₃ (2MD): total synthesis, docking to the VDR, and biological evaluation.
Journal: Bioorganic & medicinal chemistry 20111201
Title: Synthesis and SAR studies of 1,4-benzoxazine MenB inhibitors: novel antibacterial agents against Mycobacterium tuberculosis.
Journal: Bioorganic & medicinal chemistry letters 20101101
Title: 1-desoxy analog of 2MD: synthesis and biological activity of (20S)-25-hydroxy-2-methylene-19-norvitamin D3.
Journal: The Journal of steroid biochemistry and molecular biology 20100701
Title: Enantio- and diastereoselective total synthesis of (+)-panepophenanthrin, a ubiquitin-activating enzyme inhibitor, and biological properties of its new derivatives.
Journal: Chemistry, an Asian journal 20061218
Title: Studies on a total synthesis of the microbial immunosuppresive agent FR901483.
Journal: The Journal of organic chemistry 20060303
Title: pi-Facial stereoselectivity in Diels-Alder cycloadditions to 1-oxaspiro[4.5]deca-6,9-dien-8-one. The strong directive effect of ether oxygen in a cross-conjugated ketone setting.
Journal: Organic letters 20030724
Title: Aromatization of 1,6,7,7a-tetrahydro-2H-indol-2-ones by a novel process. Preparation of key-intermediate methyl 1-benzyl-5-methoxy-1H-indole-3-acetate and the syntheses of serotonin, melatonin, and bufotenin.
Journal: The Journal of organic chemistry 20020405
