994 resultados para 347-M0065C
Resumo:
This review will focus on the possibility that the cerebellum contains an internal model or models of the motor apparatus. Inverse internal models can provide the neural command necessary to achieve some desired trajectory. First, we review the necessity of such a model and the evidence, based on the ocular following response, that inverse models are found within the cerebellar circuitry. Forward internal models predict the consequences of actions and can be used to overcome time delays associated with feedback control. Secondly, we review the evidence that the cerebellum generates predictions using such a forward model. Finally, we review a computational model that includes multiple paired forward and inverse models and show how such an arrangement can be advantageous for motor learning and control.
Resumo:
猕猴桃是重要的栽培果树,但目前栽培品种过于单一,不能满足生产和消费的需求。由于猕猴桃的雌雄异株特性、种间杂交亲合性差、遗传上高度杂合以及育种周期长等特点,常规杂交育种困难很大。现代生物技术,如原生质体培养和体细胞杂交等,为培育新品种提供了新途径。 毛花猕猴桃(Actinidia eriantha)和软枣猕猴桃(A.arguta)是猕猴桃属中具有重要利用价值的两个种。毛花猕猴桃果实大小在猕猴桃属中次于中华猕猴桃(A.chinensis)和美味猕猴桃(A.deliciosa)列第三位,果实维生素C含量达1014 mg/l00 g FW。软枣猕猴桃极耐寒,在-40℃下可安全越冬,其果实表面光滑无毛。这两个种是品种改良的重要种质资源。 作为生物技术基础的组织培养与植株再生系统,在毛花猕猴桃上尚未见报道。软枣猕猴桃的组织培养仅有一例报道,且芽分化率和分化系数都很低。这两个种的原生质体培养及与美味猕猴桃的原生质体融合也未见报道。针对这种情况,本试验对毛花猕猴桃和软枣猕猴桃的组织培养、原生质体培养及其与美味猕猴桃品种“Hayward”的原生质体融合进行研究,结果建立了较理想的毛花猕猴桃和软枣猕猴桃组织培养系统;首次从毛花猕猴桃原生质体得到再生植株和从软枣猕猴桃原生质体培养再生愈伤组织;通过改进融合方法,建立了毛花猕猴桃+美味猕猴桃和软枣猕猴桃+美味猕猴桃的原生质体融合体系,并将异核体培养分裂得到细胞团。这些结果有利于今后毛花猕猴桃和软枣猕猴桃资源的开发利用。主要试验结果如下: 以毛花猕猴桃试管实生苗叶片和茎段为外植体,培养在附加一定浓度Zea或CPPU的MS培养基上,产生的愈伤组织不经转代就可分化芽。试管苗茎段在附加0.0025 mg/L CPPU和0.1 mg/LIAA的MS培养基上愈伤组织产生、芽分化和苗生长都较理想;试管苗叶片则以附加0.025 mg/L CPPU和0.l mg/LIAA或0.5 mg/L Zea和0.1 mg/LIAA的MS培养基较好。当苗生长至1.0 cm时经诱导生根形成完整植株。 在软枣猕猴桃组织培养中,外植体种类、诱导培养基的激素种类和诱导分化时细胞分裂素种类都有重要影响。无菌苗茎段容易愈伤组织化,但分化困难;叶片外植体产生愈伤组织较难,但分化容易。在含Zea的MS培养基上,两种外植体产生的愈伤组织不经转代即能分化芽。分化培养基中添加Zea能有效地诱导芽分化,其中以2.0 mg/L Zea芽的分化最好,而Kin和BAP在0.5- 2.0 mg/L浓度范围内愈伤组织不分化。 以毛花猕猴桃或软枣猕猴桃试管苗叶片为分离原生质体的材料。试管苗的培养条件对原生质体分离效果及其培养反应有显著影响。弱光培养条件对两个种试管苗的原生质体分离及其培养都有好处,试管苗培养基也有重要影响。毛花猕猴桃和软枣猕猴桃试管苗合适培养基分别为MS基本培养基(大量元素减半)和MS+0.00025 mg/L CPPU+ 0.1 mg/LIAA。在此条件下培养的两个种的试管苗叶片,经酶解后原生质体产量分别为0.7-1.8×l06和3.0-3.5×l06/1 g FW,其原生质体在合适培养基上能够分裂。 毛花猕猴桃原生质体培养在MS培养基(去除NH4N03)附加l.0mg/L2,4-D液体培养基中,约10天时发生第一次分裂,分裂能持续下去并在培养3个月时形成约2mm大小愈伤组织。直接将其转入固体培养基中使其增殖和分化。在附加Zea 0.5 mg/L+ O.l mg/L IAA的MS培养基上继代2次,愈伤组织开始分化芽。芽伸长后切下诱导生根,形成完整植株。软枣猕猴桃原生质体培养基中,MS培养基附加2,4-D配合Zea或Kin对启动分裂是必须的,其中以MS+2,4-D 0.5 mg/L+ Zea 0.5 mg/L最好,在此培养基上原生质体第一次分裂发生在4-6天时,培养12-14天时见到第三次分裂,培养三周的分裂频率为23%。培养45天后形成许多小愈伤组织块。软枣猕猴桃原生质体再生的愈伤组织从液体培养基转入固体培养基后未见进一步分裂。 对18株毛花猕猴桃原生质体再生植株的体细胞染色体数目作了观察,其中12株为整倍体,二倍体和四倍体各六株;另外六株为混倍体,其染色体数目变化在59-203之间。还发现原生质体再生植株有丝分裂间期细胞存在多核现象,有多核细胞的共10株,细胞内多核数目以双核和三核较常见,最多的有七个核。原生质体供体植株为2n=2x=58,未发现多核细胞。原生质体再生植株体细胞多核现象未见报道。 利用毛花猕猴桃或软枣猕猴桃叶片原生质体分别与愈伤组织来源的美味猕猴桃原生质体进行融合,融合方法为高Ca++高pH值PEG法。对Kao等(1975)报道的融合步骤作了修改。影响融合效率的因素主要有PEG种类、融合作用时间和融合液中DMSO浓度。最佳的融合条件为40%PEG (Sigma,MW3350)+10%DMSO,作用40 min。毛花猕猴桃+美味猕猴桃和软枣猕猴桃+美味猕猴桃的融合频率分别可达14.5%和13.6%。异核体经培养可分裂并形成细胞团。
Resumo:
The primary objective of this study was to assess the efficacy of the Virgin Islands Coral Reef National Monument (VICR), a marine protected area in St John, US Virgin Islands. Surveys of habitat and fishes inside and outside of VICR were conducted in 2003-2008. Areas outside the VICR had significantly more scleractinian corals, greater habitat complexity, and greater species richness and density of reef fishes than areas inside., Areas inside and outside the VICR exhibited significant decreases in percent scleractinian coral coverage over the study period. A contrasting trend of increasing macroalgal cover was also observed. No clear effect of the severe 2005 coral bleaching event was observed suggesting other causal factors. No obvious trends in the fish community were observed across the study period. The significant decline in habitat condition, coupled with the initial incorporation of some of the more degraded reefs into the marine protected area may result in a longer time period necessary to detect positive changes in the St. John coral reef ecosystem and associated reef fish abundance and community structure.