Patents by Inventor Sivalinganna Manjunath

Sivalinganna Manjunath has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • TRANSGENIC PLANTS WITH ENHANCED TRAITS
    Publication number: 20190367935
    Abstract: This disclosure provides transgenic plants having enhanced traits such as increased yield, increased nitrogen use efficiency and enhanced drought tolerance; propagules, progeny and field crops of such transgenic plants; and methods of making and using such transgenic plants. This disclosure also provides methods of producing hybrid seed from such transgenic plants, growing such seed and selecting progeny plants with enhanced traits. Also disclosed are transgenic plants with altered phenotypes which are useful for screening and selecting transgenic event for the desired enhanced trait.
    Type: Application
    Filed: August 13, 2019
    Publication date: December 5, 2019
    Applicant: Monsanto Technology LLC
    Inventors: Mark Scott ABAD, Edwards M ALLEN, Veena S ANIL, Alice Clara AUGUSTINE, Isaac R BANKS, Prasanna R BHAT, Jaishree M CHITTOOR-VIJAYANATH, Paul S CHOMET, Molian DENG, Stephen DUFF, Barry S Goldman, Sergey IVASHUTA, Balasulojini KARUNANANDAA, Linda LUTFIYYA, Sivalinganna MANJUNATH, Anil NEELAM, Monnanda Somaiah RAJANI, G RAMAMOHAN, Chitresh SHARMA, Char SHOBHA, Tyamagondlu VENKATESH, Kammaradi R VIDYA, Jianmin ZHAO
  • Compositions and Methods for Altering Flowering and Plant Architecture to Improve Yield Potential
    Publication number: 20190300890
    Abstract: The present invention provides recombinant DNA constructs, vectors and molecules comprising a polynucleotide sequence encoding a florigenic FT protein operably linked to a vegetative stage promoter, which may also be a meristem-preferred or meristem-specific promoter. Transgenic plants, plant cells and tissues, and plant parts are further provided comprising a polynucleotide sequence encoding a florigenic FT protein. Transgenic plants comprising a florigenic FT transgene may produce more bolls, siliques, fruits, nuts, or pods per node on the transgenic plant, particularly on the main stem of the plant, relative to a control or wild type plant. Methods are further provided for introducing a florigenic FT transgene into a plant, and planting transgenic FT plants in the field including at higher densities. Transgenic plants of the present invention may thus provide greater yield potential than wild type plants and may be planted at a higher density due to their altered plant architecture.
    Type: Application
    Filed: March 29, 2019
    Publication date: October 3, 2019
    Applicant: Monsanto Technology LLC
    Inventors: Brent Brower-Toland, Rico A. Caldo, Shunhong Dai, Karen Gabbert, Alexander Goldshmidt, Miya D. Howell, Balasulojini Karunanandaa, Sivalinganna Manjunath, Bradley W. McDill, Daniel J. Ovadya, Sasha Preuss, Elena A. Rice, Beth Savidge, Vijay K. Sharma
  • Compositions and Methods for Altering Flowering and Plant Architecture to Improve Yield Potential
    Publication number: 20190218563
    Abstract: The present invention provides recombinant DNA constructs, vectors and molecules comprising a polynucleotide sequence encoding a florigenic FT protein operably linked to a vegetative stage promoter, which may also be a meristem-preferred or meristem-specific promoter. Transgenic plants, plant cells and tissues, and plant parts are further provided comprising a polynucleotide sequence encoding a florigenic FT protein. Transgenic plants comprising a florigenic FT transgene may produce more bolls, siliques, fruits, nuts, or pods per node on the transgenic plant, particularly on the main stem of the plant, relative to a control or wild type plant. Methods are further provided for introducing a florigenic FT transgene into a plant, and planting transgenic FT plants in the field including at higher densities. Transgenic plants of the present invention may thus provide greater yield potential than wild type plants and may be planted at a higher density due to their altered plant architecture.
    Type: Application
    Filed: March 29, 2019
    Publication date: July 18, 2019
    Applicant: Monsanto Technology LLC
    Inventors: Brent Brower-Toland, Rico A. Caldo, Shunhong Dai, Karen Gabbert, Alexander Goldshmidt, Miya D. Howell, Balasulojini Karunanandaa, Sivalinganna Manjunath, Bradley W. McDill, Daniel J. Ovadya, Sasha Preuss, Elena A. Rice, Beth Savidge, Vijay K. Sharma
  • Compositions and methods for altering flowering and plant architecture to improve yield potential
    Patent number: 10294486
    Abstract: The present invention provides recombinant DNA constructs, vectors and molecules comprising a polynucleotide sequence encoding a florigenic FT protein operably linked to a vegetative stage promoter, which may also be a meristem-preferred or meristem-specific promoter. Transgenic plants, plant cells and tissues, and plant parts are further provided comprising a polynucleotide sequence encoding a florigenic FT protein. Transgenic plants comprising a florigenic FT transgene may produce more bolls, siliques, fruits, nuts, or pods per node on the transgenic plant, particularly on the main stem of the plant, relative to a control or wild type plant. Methods are further provided for introducing a florigenic FT transgene into a plant, and planting transgenic FT plants in the field including at higher densities. Transgenic plants of the present invention may thus provide greater yield potential than wild type plants and may be planted at a higher density due to their altered plant architecture.
    Type: Grant
    Filed: April 18, 2016
    Date of Patent: May 21, 2019
    Assignee: Monsanto Technology LLC
    Inventors: Brent Brower-Toland, Rico A. Caldo, Shunhong Dai, Karen Gabbert, Alexander Goldshmidt, Miya D. Howell, Balasulojini Karunanandaa, Sivalinganna Manjunath, Bradley W. McDill, Daniel J. Ovadya, Sasha Preuss, Elena A. Rice, Beth Savidge, Vijay K. Sharma
  • TRANSGENIC PLANTS WITH ENHANCED AGRONOMIC TRAITS
    Publication number: 20180237793
    Abstract: This invention provides transgenic plant cells with recombinant DNA for expression of proteins that are useful for imparting enhanced agronomic trait(s) to transgenic crop plants. This invention also provides transgenic plants and progeny seed comprising the transgenic plant cells where the plants are selected for having an enhanced trait selected from the group of traits consisting of enhanced water use efficiency, enhanced cold tolerance, increased yield, enhanced nitrogen use efficiency, enhanced seed protein and enhanced seed oil. Also disclosed are methods for manufacturing transgenic seed and plants with enhanced trait.
    Type: Application
    Filed: November 30, 2017
    Publication date: August 23, 2018
    Applicant: Monsanto Technology LLC
    Inventors: Eric D. Aasen, Mark Scott Abad, Edwards Allen, Thandoni Rao Ambika, Veena S. Anil, Alice Clara Augustine, Stephanie L. Back, Pranesh Badami, Amarjit Basra, Kraig L. Brustad, Molian Deng, Todd Dezwaan, Charles Dietrich, Stephen M. Duff, Karen K. Gabbert, Steve He, Bill L. Hendrix, Hongwu Jia, Vidya Kammaradi Ramanath Bhat, Balasulojini Karunanandaa, Kevin R. Kosola, Kempagangaiah Krishnamurthy, Ganesh Kumar, Saritha V. Kuriakose, Shantala Lakkanna, Mark E. Leibman, Linda Lutfiyya, Savitha Madappa, Sivalinganna Manjunath, Robert J. Meister, Bellur Narasimha Prasad, Sasha Preuss, Qungang Qi, Dhanalakshmi Ramachandra, Aniruddha Raychaudhuri, S. Sangeetha, Scott Saracco, Chitresh Sharma, Vijay K. Sharma, Monnanda S. Rajani, Padmini Sudarshana, Rebecca L. Thompson-Mize, Srikanth Venkatachalayya, Tyamagondlu V. Venkatesh, Huai Wang, Jingrui Wu, Xiaoyun Wu, Xiaofeng Sean Yang, Qin Zeng, Jianmin Zhao
  • COMPOSITIONS AND METHODS FOR ALTERING FLOWERING AND PLANT ARCHITECTURE TO IMPROVE YIELD POTENTIAL
    Publication number: 20160304891
    Abstract: The present invention provides recombinant DNA constructs, vectors and molecules comprising a polynucleotide sequence encoding a florigenic FT protein operably linked to a vegetative stage promoter, which may also be a meristem-preferred or meristem-specific promoter. Transgenic plants, plant cells and tissues, and plant parts are further provided comprising a polynucleotide sequence encoding a florigenic FT protein. Transgenic plants comprising a florigenic FT transgene may produce more bolls, siliques, fruits, nuts, or pods per node on the transgenic plant, particularly on the main stem of the plant, relative to a control or wild type plant. Methods are further provided for introducing a florigenic FT transgene into a plant, and planting transgenic FT plants in the field including at higher densities. Transgenic plants of the present invention may thus provide greater yield potential than wild type plants and may be planted at a higher density due to their altered plant architecture.
    Type: Application
    Filed: April 18, 2016
    Publication date: October 20, 2016
    Applicant: Monsanto Technology LLC
    Inventors: Brent Brower-Toland, Rico A. Caldo, Shunhong Dai, Karen Gabbert, Alexander Goldshmidt, Miya D. Howell, Balasulojini Karunanandaa, Sivalinganna Manjunath, Bradley W. McDill, Daniel J. Ovadya, Sasha Preuss, Elena A. Rice, Beth Savidge, Vijay K. Sharma
  • INTERFERING WITH HD-ZIP TRANSCRIPTION FACTOR REPRESSION OF GENE EXPRESSION TO PRODUCE PLANTS WITH ENHANCED TRAITS
    Publication number: 20160257968
    Abstract: A recombinant DNA construct is disclosed. When the recombinant DNA construct is expressed in a plant or a plant cell, endogenous HD-Zip class II proteins become less able to repress DNA transcription of the genes they typically regulate. The recombinant DNA construct can be expressed in plant cells to produce plants with enhanced phenotypes. Methods of making transgenic plants comprising the recombinant DNA construct, and plants produced thereby are also disclosed.
    Type: Application
    Filed: October 1, 2014
    Publication date: September 8, 2016
    Inventors: Cara L. Griffith, Abha Khandelwal, JR., Paul J. Loida, Elena A. Rice, Rebecca L. Thompson, Sivalinganna Manjunath
  • Transgenic Plants With Enhanced Traits
    Publication number: 20160237447
    Abstract: This disclosure provides transgenic plants having enhanced traits such as increased yield, increased nitrogen use efficiency and enhanced drought tolerance; propagules, progeny and field crops of such transgenic plants; and methods of making and using such transgenic plants. This disclosure also provides methods of producing hybrid seed from such transgenic plants, growing such seed and selecting progeny plants with enhanced traits. Also disclosed are transgenic plants with altered phenotypes which are useful for screening and selecting transgenic events for the desired enhanced trait.
    Type: Application
    Filed: October 6, 2014
    Publication date: August 18, 2016
    Inventors: Mark Scott Abad, Edwards M Allen, Veena S Anil, Alice Clara Augustine, Isaac R Banks, Prasanna R Bhat, Jaishree M Chittoor-Vijayanath, Paul S Chomet, Molian Deng, Stephen Duff, Barry S Goldman, Sergey Ivashuta, Balasulojini Karunanandaa, Linda Lutfiyya, Sivalinganna Manjunath, Anil Neelam, Monnanda S Rajani, G Ramamohan, Chitresh Sharma, Char Shobha, Tyamagondlu V Venkatesh, Kammaradi R Vidya, Jianmin Zhao
  • TRANSGENIC PLANTS WITH ENHANCED AGRONOMIC TRAITS
    Publication number: 20150197764
    Abstract: This invention provides transgenic plant cells with recombinant DNA for expression of proteins that are useful for imparting enhanced agronomic trait(s) to transgenic crop plants. This invention also provides transgenic plants and progeny seed comprising the transgenic plant cells where the plants are selected for having an enhanced trait selected from the group of traits consisting of enhanced water use efficiency, enhanced cold tolerance, increased yield, enhanced nitrogen use efficiency, enhanced seed protein and enhanced seed oil. Also disclosed are methods for manufacturing transgenic seed and plants with enhanced trait.
    Type: Application
    Filed: February 26, 2015
    Publication date: July 16, 2015
    Applicant: MONSANTO TECHNOLOGY LLC
    Inventors: Eric D. Aasen, Mark Scott Abad, Edwards Allen, Thandoni Rao Ambika, Veena S. Anil, Alice Clara Augustine, Stephanie L. Back, Pranesh Badami, Amarjit Basra, Kraig L. Brustad, Molian Deng, Todd Dezwaan, Charles Dietrich, Stephen M. Duff, Karen K. Gabbert, Steve He, Bill L. Hendrix, Hongwu Jia, Vidya Kammaradi Ramanath Bhat, Balasulojini Karunanandaa, Kevin R. Kosola, Kempagangaiah Krishnamurthy, Ganesh Kumar, Saritha V. Kuriakose, Shantala Lakkanna, Mark E. Leibman, Linda Lutfiyya, Savitha Madappa, Sivalinganna Manjunath, Robert J. Meister, Bellur Narasimha Prasad, Sasha Preuss, Qungang Qi, Dhanalakshmi Ramachandra, Aniruddha Raychaudhuri, S. Sangeetha, Scott Saracco, Chitresh Sharma, Vijay K. Sharma, Rajani Monnanda Somaiah, Padmini Sudarshana, Rebecca L. Thompson-Mize, Srikanth Venkatachalayya, Tyamagondlu V. Venkatesh, Huai Wang, Jingrui Wu, Xiaoyun Wu, Xiaofeng Sean Yang, Qin Zeng, Jianmin Zhao
  • Transgenic high tryptophan plants
    Patent number: 8158851
    Abstract: The present invention provides a method for altering the tryptophan content of a plant by introducing and expressing an isolated DNA segment encoding an anthranilate synthase in the cells of the plant. Transgenic plants transformed with an isolated DNA segment encoding an anthranilate synthase, as well as human or animal food, seeds and progeny derived from these plants, are also provided.
    Type: Grant
    Filed: January 11, 2010
    Date of Patent: April 17, 2012
    Assignee: Monsanto Technology LLC
    Inventors: Lisa M. Weaver, Tim N. Oulmassov, Gabriela Vaduva, Jihong Liang, Marguerite J. Varagona, Tyamagondlu V. Venkatesh, Sivalinganna Manjunath
  • TRANSGENIC PLANTS WITH ENHANCED AGRONOMIC TRAITS
    Publication number: 20120005773
    Abstract: This invention provides transgenic plant cells with recombinant DNA for expression of proteins that are useful for imparting enhanced agronomic trait(s) to transgenic crop plants. This invention also provides transgenic plants and progeny seed comprising the transgenic plant cells where the plants are selected for having an enhanced trait selected from the group of traits consisting of enhanced water use efficiency, enhanced cold tolerance, increased yield, enhanced nitrogen use efficiency, enhanced seed protein and enhanced seed oil. Also disclosed are methods for manufacturing transgenic seed and plants with enhanced trait.
    Type: Application
    Filed: September 30, 2009
    Publication date: January 5, 2012
    Inventors: Eric D. Aasen, Mark Scott Abad, Edwards Allen, Thandoni Rao Ambika, Veena S. Anil, Alice Clara Augustine, Stephanie L. Back, Pranesh Badami, Amarjit Basra, Kraig L. Brustad, Molian Deng, Todd Dezwaan, Charles Dietrich, Stephen M. Duff, Karen K. Gabbert, Steve He, Bill L. Hendrix, Hongwu Jia, Vidya Kammaradi Ramanath Bhat, Hongwu Jia, Vidya Kammaradi Ramanath Bhat, Balasulojini Karunanandaa, Kevin R. Kosola, Kempagangaiah Krishnamurthy, Ganesh Kumar, Saritha V. Kuriakose, Shantala Lakkanna, Mark E. Leibman, Linda Lutfiyya, Savitha Madappa, Sivalinganna Manjunath, Robert J. Meister, Bellur Narasimba Prasad, Sasha Preuss, Qungang Qi, Dhanalakshmi Ramachandra, S. Sangeetha, Scott Saracco, Chitresh Sharma, Vijay K. Sharma, Rajani Monnanda Somaiah, Padmini Sudarshana, Rebecca L. Thompson-Mize, Srikanth Venkatachalayya, Tyamagondlu V. Venkatesh, Huai Wang, Jingrui Wu, Xiaoyun Wu, Xiaofeng Sean Yang, Qin Zeng, Jianmin Zhao
  • TRANSGENIC HIGH TRYPTOPHAN PLANTS
    Publication number: 20110195175
    Abstract: The present invention provides a method for altering the tryptophan content of a plant by introducing and expressing an isolated DNA segment encoding an anthranilate synthase in the cells of the plant. Transgenic plants transformed with an isolated DNA segment encoding an anthranilate synthase, as well as human or animal food, seeds and progeny derived from these plants, are also provided.
    Type: Application
    Filed: January 11, 2010
    Publication date: August 11, 2011
    Inventors: Lisa M. Weaver, Tim N. Oulmassov, Gabriela Vaduva, Jihong Liang, Marguerite J. Varagona, Tyamagondlu V. Venkatesh, Sivalinganna Manjunath