9 research outputs found
Effects of dual-labeling methods on chlorophyll a (Chl-a), chlorophyll b (Chl-b), total chlorophyll content (Chl a+b) and carotenoids (Cx-c) contents in tobacco seedling.
<p>*significant difference (α = 0.05, LSD) among treatments within the same variety. Error bars represent ±S.E.</p
The tobacco seeds of MSYY85 pelleted with T1 method were attracted by a small magnet.
<p><b>Ck</b>: the control seeds pelleted without magnetic powder and fluorescent materials did not be attracted by a magnet; <b>a</b>: the seeds pelleted with T1 (2 g seeds pelleted with 15 g bentonite and 84 g blend powder which consisted of 79.6 g talc, 0.2 g fluorescein and 4.2 g magnetic powder) were attracted by a magnet; the white arrow showed a small magnet.</p
Fluorescence in seedling of MSYY85 pelleted with T3 method under illumination of different lights.
<p><b>Ck</b>: the top row, seedlings from control seeds pelleted without rhodamine B and magnetic powder after 7 days germination (×7); two columns from left to right: under natural light and green light, respectively; <b>A</b> and <b>B</b>: seedlings from seeds pelleted with T3 (2 g seeds pelleted with 15 g bentonite and 84 g powder mixture which consisted of 79.8 g talc and 4.2 g magnetic powder. Meanwhile, a 2.0 mg/ml of rhodamine B solution was sprayed in place of water when the seed was coated with bentonite (RB and MP dual-labels)) germinated for 7 days (A, the second row) and 16 days (B, the third row), respectively (×7); <b>a</b>: the cotyledon of control seedling under green light excitation (546 nm) (×20); <b>b</b> and <b>c</b>: the cotyledon of T3 seedling under green light excitation (546 nm) after 7 and 16 days germination, respectively (×20).</p
Effects of dual-labeling methods on superoxidase dismutase (SOD) activity and malondialdehyde (MDA) content of tobacco seedling.
<p>*significant difference (α = 0.05, LSD) among treatments within the same variety. Error bars represent ±S.E.</p
Fluorescence in cracked seeds of MS YY85 pelleted with dual-labeling method under illumination of different lights.
<p>Ck: the top row, the control pellets treated without fluorescent materials and magnetic powder (×7); three columns from left to right: under natural light, blue light and green light, respectively; T: Seeds pelleted with fluorescent materials and magnetic powder under natural light; T1: 2 g seeds pelleted with 15 g bentonite and 84 g powder mixture which consisted of 79.6 g talc, 0.2 g fluorescein and 4.2 g magnetic powder (FR and MP dual-labels); T3: 2 g seeds pelleted with 15 g bentonite and 84 g powder mixture which consisted of 79.8 g talc and 4.2 g magnetic powder. Meanwhile, a 2.0 mg/ml of rhodamine B solution was sprayed in place of water when the seed was coated with bentonite (RB and MP dual-labels).</p
Fluorescence in seedling of MSYY85 pelleted with T1 method under illumination of different lights.
<p><b>Ck</b>: the top row, seedlings from control seeds pelleted without fluorescein and magnetic powder after 7 days germination (×7); two columns from left to right: under natural light and blue light, respectively; <b>A</b> and <b>B</b>: seedlings from seeds pelleted with T1 (2 g seeds pelleted with 15 g bentonite and 84 g powder mixture which consisted of 79.6 g talc, 0.2 g fluorescein and 4.2 g magnetic powder (FR and MP dual-labels)) germinated for 7 days (A, the second row) and 16 days (B, the third row), respectively (×7); <b>a</b>: the cotyledon of control seedling under blue light excitation (495 nm) after 7 days germination (×20); <b>b</b> and <b>c</b>: the cotyledon of T1 seedling under blue light excitation (495 nm) after 7 and 16 days germination, respectively (×20).</p
Supplemental Material - Association Between the Improvement of Knowledge, Attitude and Practice of Hypertension Prevention and Blood Pressure Control-A Cluster Randomized Controlled Study
Supplemental Material for Association Between the Improvement of Knowledge, Attitude and Practice of Hypertension Prevention and Blood Pressure Control-A Cluster Randomized Controlled Study by Zhen Hu, Xin Wang, Congyi Zheng, Linfeng Zhang, Xue Cao, Yixin Tian, Runqing Gu, Jiayin Cai, Ye Tian, Lan Shao, and Zengwu Wang, MD, PhD in American Journal of Health Promotion</p
Additional file 2 of The prevalence and characteristics of metabolic syndrome according to different definitions in China: a nationwide cross-sectional study, 2012–2015
Additional file 2: Supplemental Text 2. Weights calculation in the Study
Additional file 1 of The prevalence and characteristics of metabolic syndrome according to different definitions in China: a nationwide cross-sectional study, 2012–2015
Additional file 1: Appendix Table 1. Characteristics of the subjects included and excluded in the analysis (age ≥ 35 years old)