Young Arabidopsis(年輕的擬南芥)到底是什麼?
Young Arabidopsis 年輕的擬南芥 - Magnesium deficiency in young Arabidopsis thaliana seedlings increased the period of circadian oscillations of the CIRCADIAN CLOCK-ASSOCIATED 1 (CCA1) promoter (pCCA1:LUC) activity and dampened their amplitude under constant light in a dose-dependent manner. [1] Here, we present an integrated high-resolution analysis of the daily dynamic growth phenotypes and transcriptome atlases of young Arabidopsis seedlings (parental ecotypes [Col-0 and Per-1] and their F1 hybrid). [2] AINTEGUMENTA and AINTEGUMENTA-LIKE6 directly regulate floral homeotic, growth, and vascular development genes in young Arabidopsis flowers. [3] Young Arabidopsis plants were treated with 25 mM solutions of l-galactose pathway intermediates l-galactose (l-gal) or l-galactono-1,4-lactone (l-galL), as well as L-ascorbic acid (AsA), with 25 mM glucose used as control. [4] Here, we study the effect of gamma radiation on DNA methylation and its effect across generations in young Arabidopsis plants. [5] Here we describe a method to dissect young Arabidopsis seedlings in order to obtain a clear view of the vegetative meristem and young leaf primordia using confocal microscopy. [6] Here, we optimized and explained in detail a method for establishing a SRS in young Arabidopsis thaliana seedlings, both in vitro and in soil. [7] Here we describe a rapid, high-throughput method using the fluorescent coumarin glucoside esculin as a probe to measure the phloem transport velocity in the roots of young Arabidopsis seedlings. [8] Taken together, we conclude that ALA promotes primary root elongation of young Arabidopsis seedlings mainly through improving auxin transport. [9]擬南芥幼苗缺鎂會增加晝夜節律相關 1 (CCA1) 啟動子 (pCCA1:LUC) 活性的晝夜節律振盪週期,並在恆定光照下以劑量依賴性方式抑制其振幅。 [1] 在這裡,我們對擬南芥幼苗(親本生態型 [Col-0 和 Per-1] 及其 F1 雜種)的日常動態生長表型和轉錄組圖譜進行了綜合高分辨率分析。 [2] AINTEGUMENTA 和 AINTEGUMENTA-LIKE6 直接調節擬南芥幼花中的花同源異質、生長和維管發育基因。 [3] 用 25 mM 的 l-半乳糖途徑中間體 l-半乳糖 (l-gal) 或 l-galactono-1,4-lactone (l-galL) 以及 L- 抗壞血酸 (AsA) 溶液處理幼年擬南芥植物,用 25 mM 葡萄糖作為對照。 [4] 在這裡,我們研究了 γ 輻射對 DNA 甲基化的影響及其對擬南芥幼苗跨代的影響。 [5] 在這裡,我們描述了一種解剖擬南芥幼苗的方法,以便使用共聚焦顯微鏡獲得營養分生組織和幼葉原基的清晰視圖。 [6] 在這裡,我們優化並詳細解釋了在體外和土壤中在擬南芥幼苗中建立 SRS 的方法。 [7] 在這裡,我們描述了一種使用熒光香豆素葡糖苷七葉苷作為探針來測量擬南芥幼苗根部韌皮部運輸速度的快速、高通量方法。 [8] 總之,我們得出結論,ALA 主要通過改善生長素轉運來促進擬南芥幼苗的初級根伸長。 [9]
young arabidopsis seedling 擬南芥幼苗
Here, we present an integrated high-resolution analysis of the daily dynamic growth phenotypes and transcriptome atlases of young Arabidopsis seedlings (parental ecotypes [Col-0 and Per-1] and their F1 hybrid). [1] Here we describe a method to dissect young Arabidopsis seedlings in order to obtain a clear view of the vegetative meristem and young leaf primordia using confocal microscopy. [2] Here we describe a rapid, high-throughput method using the fluorescent coumarin glucoside esculin as a probe to measure the phloem transport velocity in the roots of young Arabidopsis seedlings. [3] Taken together, we conclude that ALA promotes primary root elongation of young Arabidopsis seedlings mainly through improving auxin transport. [4]在這裡,我們對擬南芥幼苗(親本生態型 [Col-0 和 Per-1] 及其 F1 雜種)的日常動態生長表型和轉錄組圖譜進行了綜合高分辨率分析。 [1] 在這裡,我們描述了一種解剖擬南芥幼苗的方法,以便使用共聚焦顯微鏡獲得營養分生組織和幼葉原基的清晰視圖。 [2] 在這裡,我們描述了一種使用熒光香豆素葡糖苷七葉苷作為探針來測量擬南芥幼苗根部韌皮部運輸速度的快速、高通量方法。 [3] 總之,我們得出結論,ALA 主要通過改善生長素轉運來促進擬南芥幼苗的初級根伸長。 [4]
young arabidopsis thaliana 年輕的擬南芥
Magnesium deficiency in young Arabidopsis thaliana seedlings increased the period of circadian oscillations of the CIRCADIAN CLOCK-ASSOCIATED 1 (CCA1) promoter (pCCA1:LUC) activity and dampened their amplitude under constant light in a dose-dependent manner. [1] Here, we optimized and explained in detail a method for establishing a SRS in young Arabidopsis thaliana seedlings, both in vitro and in soil. [2]擬南芥幼苗缺鎂會增加晝夜節律相關 1 (CCA1) 啟動子 (pCCA1:LUC) 活性的晝夜節律振盪週期,並在恆定光照下以劑量依賴性方式抑制其振幅。 [1] 在這裡,我們優化並詳細解釋了在體外和土壤中在擬南芥幼苗中建立 SRS 的方法。 [2]
young arabidopsis plant 年輕的擬南芥植物
Young Arabidopsis plants were treated with 25 mM solutions of l-galactose pathway intermediates l-galactose (l-gal) or l-galactono-1,4-lactone (l-galL), as well as L-ascorbic acid (AsA), with 25 mM glucose used as control. [1] Here, we study the effect of gamma radiation on DNA methylation and its effect across generations in young Arabidopsis plants. [2]用 25 mM 的 l-半乳糖途徑中間體 l-半乳糖 (l-gal) 或 l-galactono-1,4-lactone (l-galL) 以及 L- 抗壞血酸 (AsA) 溶液處理幼年擬南芥植物,用 25 mM 葡萄糖作為對照。 [1] 在這裡,我們研究了 γ 輻射對 DNA 甲基化的影響及其對擬南芥幼苗跨代的影響。 [2]