Rhythm generation in monkey motor cortex explored using pyramidal tract stimulation.

We investigated whether stimulation of the pyramidal tract (PT) could reset the phase of 15-30 Hz beta oscillations observed in the macaque motor cortex. We recorded local field potentials (LFPs) and multiple single-unit activity from two conscious macaque monkeys performing a precision grip task. EMG activity was also recorded from the second animal. Single PT stimuli were delivered during the hold period of the task, when oscillations in the LFP were most prominent. Stimulus-triggered averaging of the LFP showed a phase-locked oscillatory response to PT stimulation. Frequency domain analysis revealed two components within the response: a 15-30 Hz component, which represented resetting of on-going beta rhythms, and a lower frequency 10 Hz response. Only the higher frequency could be observed in the EMG activity, at stronger stimulus intensities than were required for resetting the cortical rhythm. Stimulation of the PT during movement elicited a greatly reduced oscillatory response. Analysis of single-unit discharge confirmed that PT stimulation was capable of resetting periodic activity in motor cortex. The firing patterns of pyramidal tract neurones (PTNs) and unidentified neurones exhibited successive cycles of suppression and facilitation, time locked to the stimulus. We conclude that PTN activity directly influences the generation of the 15-30 Hz rhythm. These PTNs facilitate EMG activity in upper limb muscles, contributing to corticomuscular coherence at this same frequency. Since the earliest oscillatory effect observed following stimulation was a suppression of firing, we speculate that inhibitory feedback may be the key mechanism generating such oscillations in the motor cortex.

BADH基因转化番茄提高耐盐性的研究

甜菜碱是植物在盐、干旱或其它胁迫下在细胞中迅速积累的一种相容性有机小分子化合物，它在细胞中的积累与植物抗盐性的提高密切相关。甜菜碱醛脱氢酶（BADH）催化甜菜碱醛转化为甜菜碱。我们将来源于耐盐植物山菠菜（Atriplx hortensis L.）的BADH基因通过农杆菌介导法导入‘百丽春’番茄(Lycopersicon esculentum L. ‘Bailichun’)中，并获得15株转化植株，PCR、Southern和Northern检测表明，其中的6株有外源BADH基因的整合，5株中BADH基因能够正常表达，但不同植株间BADH基因的表达水平和BADH酶活力有较大差异。对叶片电导率的测定表明，转基因植株比野生型的耐盐性有较大提高。T1代分析表明，检测的两个转基因株系后代遵循孟德尔分离规律，90mmol/L NaCl胁迫下种子发芽率提高了2~4倍，幼苗的苗高、根长和须根数三个指标均明显优于对照。部分T1代植株在水培条件下能够耐受180mmol/L NaCl胁迫。 植物耐盐的另一机理就是利用液泡膜上存在的转运蛋白将细胞内的有毒离子区域化。我们将已转入编码转运蛋白基因AtNHX1的番茄品种‘Moneymaker’（L. esculentum‘Moneymaker’）株系X1OEA1通过农杆菌介导法转入山菠菜BADH基因，以期获得转双基因耐盐番茄。目前已获得转基因植株，PCR结果证明部分抗性幼苗中已整合了BADH基因，其它各项分子检测正在进行中。