会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • Plant seed comprising vernolic acid
    • 含有种子酸的植物种子
    • US20070209092A1
    • 2007-09-06
    • US11699817
    • 2007-01-30
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • A01H5/10
    • C12N9/0071C12N9/0004C12N15/8247C12P7/6409C12P7/6427C12P7/6472
    • The present invention relates generally to novel genetic sequences that encode fatty acid epoxygenase enzymes, in particular fatty acid Δ12-epoxygenase enzymes from plants that are mixed function monooxygenase enzymes. More particularly, the present invention exemplifies cDNA sequences from Crepis spp. and Vernonia galamensis that encode fatty acid Δ12-epoxygenases. The genetic sequences of the present invention provide the means by which fatty acid metabolism may be altered or manipulated in organisms, such as, for example, yeasts, moulds, bacteria, insects, birds, mammals and plants, and more particularly in plants. The invention also extends to genetically modified oil-accumulating organisms transformed with the subject genetic sequences and to the oils derived therefrom. The oils thus produced provide the means for the cost-effective raw materials for use in the efficient production of coatings, resins, glues, plastics, surfactants and lubricants.
    • 本发明一般涉及编码脂肪酸环氧化酶的新型遗传序列,特别是来自作为混合功能单加氧酶的植物的脂肪酸Δ12-环氧化酶。 更具体地,本发明举例说明了来自Crepis spp的cDNA序列。 和Vernonia galamensis,编码脂肪酸Delta12-环氧化酶。 本发明的遗传序列提供了在生物体例如酵母,霉菌,细菌,昆虫,鸟类,哺乳动物和植物中,更具体地在植物中可以改变或操纵脂肪酸代谢的方法。 本发明还延伸到用受试者遗传序列转化的转基因油积聚生物和由其衍生的油。 因此生产的油为用于有效生产涂料,树脂,胶水,塑料,表面活性剂和润滑剂的成本效益好的原材料提供了手段。
    • 5. 发明授权
    • Fatty acid epoxygenase genes from plants and uses therefor in modifying fatty acid metabolism
    • 来自植物的脂肪酸环氧化酶基因,用于修饰脂肪酸代谢
    • US07589253B2
    • 2009-09-15
    • US09981124
    • 2001-10-17
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • C12N15/82A01H5/00
    • C12N9/0071C12N9/0004C12N15/8247C12P7/6409C12P7/6427C12P7/6472
    • The present invention relates generally to novel genetic sequences that encode fatty acid epoxygenase enzymes, in particular fatty acid Δ12-epoxygenase enzymes from plants that are mixed function monooxygenase enzymes. More particularly, the present invention exemplifies cDNA sequences from Crepis spp. and Vernonia galamensis that encode fatty acid Δ12-epoxygenases. The genetic sequences of the present invention provide the means by which fatty acid metabolism may be altered or manipulated in organisms, such as, for example, yeasts, moulds, bacteria, insects, birds, mammals and plants, and more particularly in plants. The invention also extends to genetically modified oil-accumulating organisms transformed with the subject genetic sequences and to the oils derived therefrom. The oils thus produced provide the means for the cost-effective raw materials for use in the efficient production of coatings, resins, glues, plastics, surfactants and lubricants.
    • 本发明一般涉及编码脂肪酸环氧化酶的新型遗传序列,特别是来自作为混合功能单加氧酶的植物的脂肪酸Delta12-环氧化酶。 更具体地,本发明举例说明了来自Crepis spp的cDNA序列。 和Vernonia galamensis,编码脂肪酸Delta12-环氧化酶。 本发明的遗传序列提供了在生物体例如酵母,霉菌,细菌,昆虫,鸟类,哺乳动物和植物中,更具体地在植物中可以改变或操纵脂肪酸代谢的方法。 本发明还延伸到用受试者遗传序列转化的转基因油积聚生物和由其衍生的油。 因此生产的油为用于有效生产涂料,树脂,胶水,塑料,表面活性剂和润滑剂的成本效益好的原材料提供了手段。
    • 6. 发明授权
    • Plant fatty acid epoxygenase genes and uses therefor
    • 植物脂肪酸环氧化酶基因及其用途
    • US06329518B1
    • 2001-12-11
    • US09059769
    • 1998-04-14
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • C12N1582
    • C12N9/0071C12N9/0004C12N15/8247C12P7/6409C12P7/6463
    • The present invention relates generally to novel genetic sequences which encode fatty acid epoxygenase enzymes. In particular, the present invention relates to genetic sequences which encode fatty acid &Dgr;12-epoxygenase enzymes comprising mixed function monooxygenase enzymes. More preferably, the present invention provides cDNA sequences which encode plant fatty acid epoxygenases, in particular the Crepis palaestina &Dgr;12-epoxygenase and homologues, analogues and derivatives thereof. The genetic sequences of the present invention provide the means by which fatty acid metabolism may be altered or manipulated in organisms such as yeasts, moulds, bacteria, insects, birds, mammals and plants, in particular to convert unsaturated fatty acids to epoxygenated fatty acids therein. The invention extends to genetically modified oil-accumulating organisms transformed with the subject genetic sequences and to the oils derived therefrom. The oils thus produced provide the means for the cost-effective raw materials for use in the efficient production of coatings, resins, glues, plastics, surfactants and lubricants, amongst others.
    • 本发明一般涉及编码脂肪酸环氧化酶的新型遗传序列。 特别地,本发明涉及编码包含混合功能单加氧酶的脂肪酸DELTA12-环氧化酶的遗传序列。 更优选地,本发明提供编码植物脂肪酸环氧化酶的cDNA序列,特别是Crepis palaestina DELTA12-环氧化酶及其同系物,类似物和衍生物。 本发明的遗传序列提供了在诸如酵母,霉菌,细菌,昆虫,鸟类,哺乳动物和植物的生物体中脂肪酸代谢可被改变或操作的手段,特别是将不饱和脂肪酸转化为环氧化脂肪酸 。 本发明延伸到用受试者遗传序列转化的转基因油积聚生物和由其衍生的油。 因此生产的油为用于有效生产涂料,树脂,胶水,塑料,表面活性剂和润滑剂等的成本效益好的原料提供了手段。
    • 8. 发明授权
    • Plant seed comprising vernolic acid
    • 含有种子酸的植物种子
    • US07834248B2
    • 2010-11-16
    • US11699817
    • 2007-01-30
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • Allan GreenSurinder SinghMarit LenmanSten Stymne
    • A01H5/00
    • C12N9/0071C12N9/0004C12N15/8247C12P7/6409C12P7/6427C12P7/6472
    • The present invention relates generally to novel genetic sequences that encode fatty acid epoxygenase enzymes, in particular fatty acid Δ12-epoxygenase enzymes from plants that are mixed function monooxygenase enzymes. More particularly, the present invention exemplifies cDNA sequences from Crepis spp. and Vernonia galamensis that encode fatty acid Δ12-epoxygenases. The genetic sequences of the present invention provide the means by which fatty acid metabolism may be altered or manipulated in organisms, such as, for example, yeasts, moulds, bacteria, insects, birds, mammals and plants, and more particularly in plants. The invention also extends to genetically modified oil-accumulating organisms transformed with the subject genetic sequences and to the oils derived therefrom. The oils thus produced provide the means for the cost-effective raw materials for use in the efficient production of coatings, resins, glues, plastics, surfactants and lubricants.
    • 本发明一般涉及从作为混合功能单加氧酶的植物编码脂肪酸环氧化酶,特别是脂肪酸和Dgr 12-环氧化酶的新型遗传序列。 更具体地,本发明举例说明了来自Crepis spp的cDNA序列。 和Vernonia galamensis编码脂肪酸和Dgr; 12-环氧化酶。 本发明的遗传序列提供了在生物体例如酵母,霉菌,细菌,昆虫,鸟类,哺乳动物和植物中,更具体地在植物中可以改变或操纵脂肪酸代谢的方法。 本发明还延伸到用受试者遗传序列转化的转基因油积聚生物和由其衍生的油。 因此生产的油为用于有效生产涂料,树脂,胶水,塑料,表面活性剂和润滑剂的成本效益好的原材料提供了手段。
    • 9. 发明授权
    • High speed serial interface
    • 高速串行接口
    • US08835769B1
    • 2014-09-16
    • US13524687
    • 2012-06-15
    • Arch ZaliznyakSurinder Singh
    • Arch ZaliznyakSurinder Singh
    • H05K1/03H01R12/55
    • H01R13/6471H01L23/49838H01L2924/0002H01R12/52H01L2924/00
    • A high speed serial interface comprises a rectilinear array of rows and columns of contact sites on a substrate. In the first four columns, pairs of transmitter and receiver contacts alternate row-by-row with pairs of ground contacts In the fifth column, there is a permanent (or hard) ground contact adjacent to each transmitter or receiver contact pair located in a row in the third and fourth columns and the remaining contacts in the fifth column are general purpose input/output (GPIO) contacts. As a result, up to 50 percent of the contacts in the fifth column may be GPIO contacts. In the sixth column, all the contacts are GPIO contacts.
    • 高速串行接口包括在衬底上的行和列的接触点的直线阵列。 在前四列中,成对的发射器和接收器触点交替排列成对的接地触点。在第五列中,存在一个与位于一行中的每个发射器或接收器触点对相邻的永久(或硬)接地触点 在第三列和第四列中,第五列中的其余触点是通用输入/输出(GPIO)触点。 因此,第五列中多达50%的联系人可能是GPIO联系人。 在第六列中,所有联系人都是GPIO联系人。
    • 10. 发明申请
    • METHODS AND APPARATUS FOR IMPROVING COMPATIBILITY BETWEEN NETWORK DEVICES
    • 提高网络设备之间兼容性的方法和设备
    • US20130262651A1
    • 2013-10-03
    • US13431128
    • 2012-03-27
    • Sandip ShahSurinder Singh
    • Sandip ShahSurinder Singh
    • G06F15/173
    • G06F8/63G06F8/65G06F8/658G06F17/30268H04L41/0853H04L41/0866H04L41/0873H04L63/123
    • In some embodiments, an apparatus includes a network device configured to receive an anomaly database of a first image that stores a set of differences between the first image and a base image. The network device is configured to compare the anomaly database of the first image with an anomaly database of a second image storing a set of differences between the second image and the base image to determine if the first and second images include at least one incompatible critical feature or incompatible non-critical feature. The network device is configured to send a signal associated with a first action if the first and second images include the at least one incompatible critical feature. The network device is configured to send a signal associated with a second action different from the first action if the first and second images include the at least one incompatible non-critical feature.
    • 在一些实施例中,一种装置包括被配置为接收存储第一图像和基本图像之间的一组差异的第一图像的异常数据库的网络装置。 网络设备被配置为将第一图像的异常数据库与存储第二图像和基本图像之间的一组差异的第二图像的异常数据库进行比较,以确定第一和第二图像是否包括至少一个不兼容的关键特征 或不兼容的非关键功能。 如果第一和第二图像包括至少一个不兼容的关键特征,则网络设备被配置为发送与第一动作相关联的信号。 网络设备被配置为如果第一和第二图像包括至少一个不兼容的非关键特征,则发送与不同于第一动作的第二动作相关联的信号。