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    • 6. 发明授权
    • Transgenic trees exhibiting increased growth, biomass production and xylem fibre length, and methods for their production
    • 表现出增长的生物量,生物量生产和木质部纤维长度的转基因树及其生产方法
    • US07807878B2
    • 2010-10-05
    • US11590211
    • 2006-10-30
    • Maria ErikssonThomas MoritzMaria IsraelssonOloff Olsson
    • Maria ErikssonThomas MoritzMaria IsraelssonOloff Olsson
    • C12N15/82C12N5/04A01H5/00A01H5/10
    • C12N15/8242C12N15/8297
    • Important aims in nearly all tree-breeding programs around the world are to produce plants with increased growth rates and stem volumes, and shorter rotation times. Such trees would yield more biomass per area unit. Here the present inventors have shown that when over-expressing a key regulatory gene in the biosynthesis of the plant hormone gibberellin (GA) in hybrid aspen (Populus tremula×P. tremuloides), improvements in valuable traits such as growth rate and biomass are obtained. In addition, these trees also have longer xylem fibres than unmodified wild type plants. Long fibers are very desirable in the production of strong paper, but it has not (as yet) proved possible to influence this trait by traditional breeding techniques. A further advantage of the present invention is that it may reduce or eliminate the use of growth influencing chemicals in forestry.
    • 世界上几乎所有的树种育种计划的重要目标是生产具有增长速度和茎体积增加,旋转时间缩短的植物。 这样的树木将产生每单位面积更多的生物量。 本发明人已经表明,当杂交白杨(Populus tremula×P。tremuloides)中植物激素赤霉素(GA)的生物合成过程中,关键调控基因过度表达时,获得了生长速度和生物量等有价值性状的改善 。 此外,这些树木还具有比未修饰的野生型植物更长的木质部纤维。 长纤维在生产强力纸方面是非常可取的,但迄今为止还没有证明可以通过传统的育种技术来影响这一特性。 本发明的另一个优点是可以减少或消除在林业中对生长影响的化学品的使用。
    • 8. 发明申请
    • LOCKER SHELF ASSEMBLY KIT WITH EXTENSION SHELVES, LOCKER SHELF ASSEMBLY AND METHOD OF ASSEMBLING THE SHELF ASSEMBLY IN A LOCKER
    • 具有延伸件的锁紧件组合件套件,锁紧件组件和组装货柜组件的方法
    • US20140138338A1
    • 2014-05-22
    • US14078683
    • 2013-11-13
    • Thomas MoritzIan Moritz
    • Thomas MoritzIan Moritz
    • A47B47/00
    • A47B47/0091A47B47/042A47B61/00Y10T29/49826
    • A method for constructing a shelf assembly in a locker comprising the steps of: inserting a first sidewall having a transverse slot between upper and lower ends of the sidewall and an inner shoulder at the upper end of the sidewall in the locker against a sidewall of the locker; inserting a second sidewall having a transverse slot located between the upper and lower ends of the sidewall in the locker higher than the first sidewall and holding the second sidewall at that higher position while a first shelf is inserted at an angle with side edges of the shelf generally aligned with the slots; lowering the second sidewall and the first shelf with the side edges engaged in the slots; and, once the lower ends of the sidewalls are firmly supported on a bottom of the locker, inserting the second shelf on the shoulders of the sidewalls.
    • 一种用于在储物柜中构造货架组件的方法,包括以下步骤:将在侧壁的上端和下端之间具有横向狭槽的第一侧壁和位于储物柜中的侧壁的上端处的内肩相对于 储物柜 插入第二侧壁,所述第二侧壁具有位于所述储物柜中的所述侧壁的上端和下端之间的高于所述第一侧壁的横向狭槽,并且将所述第二侧壁保持在所述较高位置,同时第一搁架与所述搁板的侧边缘以一定角度插入 通常与槽对齐; 降低所述第二侧壁和所述第一搁架,其中所述侧边缘接合在所述槽中; 并且一旦侧壁的下端牢固地支撑在储物柜的底部上,则将第二搁板插入到侧壁的肩部上。
    • 9. 发明申请
    • Locker shelf assembly kit with extension shelves, locker shelf assembly and method of assembling the shelf assembly in a locker
    • 储物柜组件套件,带有延伸架,储物柜架组件和将货架组件装配在储物柜中的方法
    • US20110198306A1
    • 2011-08-18
    • US13066513
    • 2011-04-15
    • Thomas MoritzIan Moritz
    • Thomas MoritzIan Moritz
    • A47F5/08A47B96/02B23P11/00
    • A47B47/042A47B61/00A47B96/025Y10T29/49826
    • The method for constructing a shelf assembly in a locker having on each side thereof a generally vertically extending longitudinal lip, the lip on one side of the locker hingedly mounting a locker door, comprises the steps of: providing a first sidewall having in an inner sidewall surface thereof a transverse slot located generally midway between upper and lower ends of the sidewall and an inner shoulder at the upper end of the sidewall and a second sidewall having in an inner sidewall surface thereof a transverse slot located generally midway between the upper and lower ends of the sidewall and an inner shoulder at the upper end of the sidewall a first shelf and a second shelf: Inserting the first sidewalls in the locker against a sidewall of the locker; Inserting the second sidewall in the locker higher than the first sidewall and holding the second sidewall at that higher position while the first shelf is inserted at an angle but with side edges of the shelf generally aligned with the slots; lowering the second sidewall and the first shelf with the side edges of the shelf engaging in the slots; and, once the lower ends of the sidewalls are firmly supported on a bottom of the locker, inserting the second shelf on the shoulders of the sidewalls and a shelf extension with a shelf extension member and a connector framework. A kit for constructing the locker shelf assembly also is provided.
    • 一种用于在储物柜中构造搁板组件的方法,每个侧面上具有大致垂直延伸的纵向唇缘,所述​​唇部在所述储物柜的一侧铰接地安装储物柜门,包括以下步骤:提供第一侧壁,所述第一侧壁具有内侧壁 其表面大致位于侧壁的上端和下端之间的中间位置,并且位于侧壁的上端处的内肩部和在其内侧壁表面中具有大致在上端和下端之间大致中间的横向狭槽的第二侧壁 并且在侧壁的上端处的内肩部具有第一搁架和第二搁架:将更衣柜中的第一侧壁插入储物柜的侧壁; 将第二侧壁插入储物柜中比第一侧壁高,并且将第二侧壁保持在较高位置,同时第一搁板以一定角度插入,但是搁架的侧边缘大体上与槽对齐; 降低所述第二侧壁和所述第一搁架,所述搁板的侧边缘接合在所述槽中; 并且一旦侧壁的下端被牢固地支撑在储物柜的底部上,则将第二搁板插入到侧壁的肩部和具有搁架延伸构件和连接器框架的搁架延伸部上。 还提供了用于构造更衣柜架组件的工具箱。
    • 10. 发明授权
    • Transgenic trees exhibiting increased growth, biomass production and xylem fibre length, and methods for their production
    • 表现出增长的生物量,生物量生产和木质部纤维长度的转基因树及其生产方法
    • US07141422B2
    • 2006-11-28
    • US10221296
    • 2001-03-02
    • Maria ErikssonThomas MoritzMaria IsraelssonOlof Olsson
    • Maria ErikssonThomas MoritzMaria IsraelssonOlof Olsson
    • C12N15/82C12N5/04
    • C12N15/8242C12N15/8297
    • Important aims in nearly all tree-breeding programs around the world are to produce plants with increased growth rates and stem volumes, and shorter rotation times. Such trees would yield more biomass per area unit. Here the present inventors have shown that when over-expressing a key regulatory gene in the biosynthesis of the plant hormone gibberellin (GA) in hybrid aspen (Populus tremula×P. tremuloides), improvements in valuable traits such as growth rate and biomass are obtained. In addition, these trees also have longer xylem fibers than unmodified wild type plants. Long fibres are very desirable in the production of strong paper, but it has not (as yet) proved possible to influence this trait by traditional breeding techniques. A further advantage of the present invention is that it may reduce or eliminate the use of growth influencing chemicals in forestry.
    • 世界上几乎所有的树种育种计划的重要目标是生产具有增长速度和茎体积增加,旋转时间缩短的植物。 这样的树木将产生每单位面积更多的生物量。 这里,本发明人已经表明,当在杂交白杨(Populus tremulaxP. tremuloides)中植物激素赤霉素(GA)的生物合成中过度表达关键调节基因时,获得了有价值性状如生长速率和生物量的改善。 此外,这些树木还具有比未修饰的野生型植物更长的木质部纤维。 长纤维在生产强力纸方面是非常可取的,但迄今为止还没有证明可以通过传统的育种技术来影响这一特性。 本发明的另一个优点是可以减少或消除在林业中对生长影响的化学品的使用。