49,100 Works

Additional file 1 of Molecular epidemiology and hematologic characterization of δβ-thalassemia and hereditary persistence of fetal hemoglobin in 125,661 families of greater Guangzhou area, the metropolis of southern China

Fan Jiang, Liandong Zuo, Dongzhi Li, Jian Li, Xuewei Tang, Guilan Chen, Jianying Zhou, Hang Lu & Can Liao
Additional file 1. (A) Hb analysis showing Hb Lepore variant using capillary electrophoresis; (B) MLPA analysis showing half dosages for probes located in the region ranging from exon 3 of HBD to intron 1 of HBB; (C) A representative gel electrophoresis for Hb Lepore-Boston carrier: 915 bp Hb Lepore-Boston specific and 775 bp internal control.

Additional file 1 of Molecular epidemiology and hematologic characterization of δβ-thalassemia and hereditary persistence of fetal hemoglobin in 125,661 families of greater Guangzhou area, the metropolis of southern China

Fan Jiang, Liandong Zuo, Dongzhi Li, Jian Li, Xuewei Tang, Guilan Chen, Jianying Zhou, Hang Lu & Can Liao
Additional file 1. (A) Hb analysis showing Hb Lepore variant using capillary electrophoresis; (B) MLPA analysis showing half dosages for probes located in the region ranging from exon 3 of HBD to intron 1 of HBB; (C) A representative gel electrophoresis for Hb Lepore-Boston carrier: 915 bp Hb Lepore-Boston specific and 775 bp internal control.

Additional file 8 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 8 : Figure S6. Protein diversity of NAL1 (a). Comparison of grain number per panicle, and flag leaf width among three protein types in xian and geng subpopulations, respectively (b–e). Cyan, orange, and lightpink colors indicate NAL1-P1, NAL1-P2 and NAL1-P3, respectively. The *, **, *** denotes significance of Student’ s t test at P

Additional file 8 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 8 : Figure S6. Protein diversity of NAL1 (a). Comparison of grain number per panicle, and flag leaf width among three protein types in xian and geng subpopulations, respectively (b–e). Cyan, orange, and lightpink colors indicate NAL1-P1, NAL1-P2 and NAL1-P3, respectively. The *, **, *** denotes significance of Student’ s t test at P

Additional file 7 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 7 : Figure S5. Expression level of NAL1 and GNP1 haplotypes in young panicle at the panicle initiation stage. (a) Expression level of GNP1–1 and GNP1–6 in xian subpopulation. (b) Expression level of NAL1–2, NAL1–4 and NAL1–6 in geng subpopulation. (c) Expression level of NAL1–1, NAL1–2 and NAL1–3 in xian subpopulation. Error bars indicate SD; Letters are ranked by Duncan’s test at P

Additional file 6 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 6 : Figure S4. Protein diversity of GNP1 (a). Comparison of grain number per panicle, and plant height between two protein types in xian subpopulations in 198 panel (b–c). Cyan and orange colors indicate GNP1-P1 and GNP1-P2, respectively. The *, **, *** denotes significance of Student’ s t test at P

Additional file 7 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 7 : Figure S5. Expression level of NAL1 and GNP1 haplotypes in young panicle at the panicle initiation stage. (a) Expression level of GNP1–1 and GNP1–6 in xian subpopulation. (b) Expression level of NAL1–2, NAL1–4 and NAL1–6 in geng subpopulation. (c) Expression level of NAL1–1, NAL1–2 and NAL1–3 in xian subpopulation. Error bars indicate SD; Letters are ranked by Duncan’s test at P

Additional file 5 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 5 : Figure S3. Sliding-windows analysis of GNP1 (a) and NAL1 (b) nucleotide diversity in O. sativa ssp. xian, O. sativa ssp. geng and O. rufipogon. The y-axis represents nucleotide diversity (Ï€), and the genomic structure is shown at the bottom, where the black boxes indicate exons and the white boxes indicate introns and other noncoding regions.

Additional file 6 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 6 : Figure S4. Protein diversity of GNP1 (a). Comparison of grain number per panicle, and plant height between two protein types in xian subpopulations in 198 panel (b–c). Cyan and orange colors indicate GNP1-P1 and GNP1-P2, respectively. The *, **, *** denotes significance of Student’ s t test at P

Additional file 5 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 5 : Figure S3. Sliding-windows analysis of GNP1 (a) and NAL1 (b) nucleotide diversity in O. sativa ssp. xian, O. sativa ssp. geng and O. rufipogon. The y-axis represents nucleotide diversity (Ï€), and the genomic structure is shown at the bottom, where the black boxes indicate exons and the white boxes indicate introns and other noncoding regions.

Additional file 1 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 1: Figure S1. Comparison of grain number per panicle, flag leaf width and plant height between xian and geng rice (Oryza sativa L.) subpopulations in 198 accessions. (a–c) Cyan and orange colors indicate xian and geng, respectively. The *, **, *** denotes significance of Student’ s t test at P

Additional file 1 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 1: Figure S1. Comparison of grain number per panicle, flag leaf width and plant height between xian and geng rice (Oryza sativa L.) subpopulations in 198 accessions. (a–c) Cyan and orange colors indicate xian and geng, respectively. The *, **, *** denotes significance of Student’ s t test at P

Additional file 10 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 10 : Figure S7. Comparison of grain number per panicle, flag leaf width and effective panicle number between R-type and H-type alleles located in the third exon of NAL1 gene in 3 K panel in xian and geng subpopulation, respectively. ***, P

Additional file 10 of Natural Sequence Variations and Combinations of GNP1 and NAL1 Determine the Grain Number per Panicle in Rice

Yun Wang, Laiyuan Zhai, Kai Chen, Congcong Shen, Yuntao Liang, Chunchao Wang, Xiuqin Zhao, Shu Wang & Jianlong Xu
Additional file 10 : Figure S7. Comparison of grain number per panicle, flag leaf width and effective panicle number between R-type and H-type alleles located in the third exon of NAL1 gene in 3 K panel in xian and geng subpopulation, respectively. ***, P

Additional file 1 of Efficacy of Ageratum conyzoides extracts against Giardia duodenalis trophozoites: an experimental study

Ai-Rada Pintong, Jiraporn Ruangsittichai, Sumate Ampawong, Kanthinich Thima, Patchara Sriwichai, Narumon Komalamisra & Supaluk Popruk
Additional file 1.

Additional file 1 of Efficacy of Ageratum conyzoides extracts against Giardia duodenalis trophozoites: an experimental study

Ai-Rada Pintong, Jiraporn Ruangsittichai, Sumate Ampawong, Kanthinich Thima, Patchara Sriwichai, Narumon Komalamisra & Supaluk Popruk
Additional file 1.

Additional file 4 of A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers

Jacqueline Leung, Eiji Nagayasu, Yu-Chen Hwang, Jun Liu, Phillip Pierce, Isabelle Phan, Robin Prentice, John Murray & Ke Hu
Additional file 4: Movie S2. A 3-D stack of deconvolved wide-field images of Xenopus S3 cells expressing EGFP-α-tubulin (green) and mCherryFP-TgDCX (red). Bar: 10 μm.

Additional file 5 of A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers

Jacqueline Leung, Eiji Nagayasu, Yu-Chen Hwang, Jun Liu, Phillip Pierce, Isabelle Phan, Robin Prentice, John Murray & Ke Hu
Additional file 5: Movie S3. A 3-D stack of deconvolved wide-field images of Xenopus S3 cells expressing EGFP-tubulin (green) and mCherryFP-TgDCX71–243 (red). Bar: 10 μm.

Additional file 5 of A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers

Jacqueline Leung, Eiji Nagayasu, Yu-Chen Hwang, Jun Liu, Phillip Pierce, Isabelle Phan, Robin Prentice, John Murray & Ke Hu
Additional file 5: Movie S3. A 3-D stack of deconvolved wide-field images of Xenopus S3 cells expressing EGFP-tubulin (green) and mCherryFP-TgDCX71–243 (red). Bar: 10 μm.

Additional file 4 of A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers

Jacqueline Leung, Eiji Nagayasu, Yu-Chen Hwang, Jun Liu, Phillip Pierce, Isabelle Phan, Robin Prentice, John Murray & Ke Hu
Additional file 4: Movie S2. A 3-D stack of deconvolved wide-field images of Xenopus S3 cells expressing EGFP-α-tubulin (green) and mCherryFP-TgDCX (red). Bar: 10 μm.

Additional file 3 of A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers

Jacqueline Leung, Eiji Nagayasu, Yu-Chen Hwang, Jun Liu, Phillip Pierce, Isabelle Phan, Robin Prentice, John Murray & Ke Hu
Additional file 3: Movie S1. A 3-D stack of deconvolved wide-field images of Xenopus S3 cells expressing EGFP-α-tubulin (green) and TgDCX-mCherryFP (red). Bar: 10 μm.

Additional file 3 of A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers

Jacqueline Leung, Eiji Nagayasu, Yu-Chen Hwang, Jun Liu, Phillip Pierce, Isabelle Phan, Robin Prentice, John Murray & Ke Hu
Additional file 3: Movie S1. A 3-D stack of deconvolved wide-field images of Xenopus S3 cells expressing EGFP-α-tubulin (green) and TgDCX-mCherryFP (red). Bar: 10 μm.

Additional file 1 of “You only live twice”: multidisciplinary management of catastrophic case in placenta Accreta Spectrum-a case report

David Atallah, Hicham Abou Zeid, Malak Moubarak, Maya Moussa, Nadine Nassif & Victor Jebara
Additional file 1: Video S1. Transesophageal cardiac ultrasound finding. Intraoperative transesophageal cardiac ultrasound revealed the presence of a new free-floating thrombus in the right atrium and right ventricle.

Additional file 1 of “You only live twice”: multidisciplinary management of catastrophic case in placenta Accreta Spectrum-a case report

David Atallah, Hicham Abou Zeid, Malak Moubarak, Maya Moussa, Nadine Nassif & Victor Jebara
Additional file 1: Video S1. Transesophageal cardiac ultrasound finding. Intraoperative transesophageal cardiac ultrasound revealed the presence of a new free-floating thrombus in the right atrium and right ventricle.

Propuesta de herramienta de trabajo colaborativo a partir del análisis de políticas de derechos de autor y acceso abierto [CNIRC2020]

Andrea López-Mendoza
Presentación para el Cuarto Congreso Nacional y Segundo Congreso Iberoamericano de Revistas Científicas “La edición de revistas académicas iberoamericanas: marco de referencia para la ciencia abierta” 2020.

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