The study was performed with seven groundnut varieties/genotypes and F1s derived from crossing in all possible combinations without reciprocal among the mentioned varieties/genotypes. The objective was to assess wheth...The study was performed with seven groundnut varieties/genotypes and F1s derived from crossing in all possible combinations without reciprocal among the mentioned varieties/genotypes. The objective was to assess whether low Ca2+ content and Ca2+/Na+ ratio of leaf tissue or stem tissue determine salinity tolerance in terms of economic yield (kernel yield) in groundnut. It revealed that the varieties, “Binachinabadam-6”, “Binachinabadam-5” and the F1 G2 × G3 were most tolerant based on kernel yield under 8 dS/m and 10 dS/m salinity stresses. These two tolerant varieties and the F1 also showed lower Ca2+ and Ca2+/Na+ ratios in leaf tissue, which indicated lower Ca2+ and Ca2+/Na+ ratio of leaf tissue determined salinity tolerance in terms of kernel yield in Spanish type groundnut. These findings could be applied in future plant breeding applications for screening salt tolerant Spanish type groundnut genotypes.展开更多
Development of efficient fluorescent probes that can realize precise fluorescence image-guided cancer surgery(FIGCS)with extremely high tumor-to-normal tissue(T/NT)ratio is urgently desirable.Herein,we report the desi...Development of efficient fluorescent probes that can realize precise fluorescence image-guided cancer surgery(FIGCS)with extremely high tumor-to-normal tissue(T/NT)ratio is urgently desirable.Herein,we report the design and synthesis of an aggregation-induced emission(AIE)-active,peptide-based fluorescence turn-on probe MPA-Ph-R-FFGYSAYPDSVPMMS(MPA-Ph-R-FFGYSA for short),which consists of a new near-infrared emissive AIE luminogen(AIEgen)MPA-Ph-R,a self-assembling peptide sequence“FFG”,and an“active”targeting peptide YSAYPDSVPMMS that can selectively bind to EphA2 protein cluster overexpressed in many cancers.As compared to the control probe MPA-Ph-R-YSA without“FFG”,MPA-Ph-R-FFGYSA exhibits much higher fluorescent brightness and sensitivity in both cellular and in vivo studies on EphA2 cluster detection/imaging,as“FFG”is beneficial to closer assembly of AIEgens in EphA2 cluster,leading to more effective restriction of the intramolecular motion of AIEgen.In vivo studies demonstrate that MPA-Ph-R-FFGYSA is a safe bioprobe and gives excellent performance in FIGCS with a rather high T/NT ratio of^13.4 upon intravenous administration into peritoneal carcinomatosis-bearing mice.This study provides a new strategy of utilizing the close assembly of tumor microenvironment-responsive AIE probes for boost FIGCS.展开更多
文摘The study was performed with seven groundnut varieties/genotypes and F1s derived from crossing in all possible combinations without reciprocal among the mentioned varieties/genotypes. The objective was to assess whether low Ca2+ content and Ca2+/Na+ ratio of leaf tissue or stem tissue determine salinity tolerance in terms of economic yield (kernel yield) in groundnut. It revealed that the varieties, “Binachinabadam-6”, “Binachinabadam-5” and the F1 G2 × G3 were most tolerant based on kernel yield under 8 dS/m and 10 dS/m salinity stresses. These two tolerant varieties and the F1 also showed lower Ca2+ and Ca2+/Na+ ratios in leaf tissue, which indicated lower Ca2+ and Ca2+/Na+ ratio of leaf tissue determined salinity tolerance in terms of kernel yield in Spanish type groundnut. These findings could be applied in future plant breeding applications for screening salt tolerant Spanish type groundnut genotypes.
基金This work was supported by the Tianjin Technical Expert Project(19JCTPJC41200)the National Natural Science Foundation of China(51873150,31770974)the National Key Research and Development Program of China(Intergovernmental Cooperation Project,2017YFE0132200).
文摘Development of efficient fluorescent probes that can realize precise fluorescence image-guided cancer surgery(FIGCS)with extremely high tumor-to-normal tissue(T/NT)ratio is urgently desirable.Herein,we report the design and synthesis of an aggregation-induced emission(AIE)-active,peptide-based fluorescence turn-on probe MPA-Ph-R-FFGYSAYPDSVPMMS(MPA-Ph-R-FFGYSA for short),which consists of a new near-infrared emissive AIE luminogen(AIEgen)MPA-Ph-R,a self-assembling peptide sequence“FFG”,and an“active”targeting peptide YSAYPDSVPMMS that can selectively bind to EphA2 protein cluster overexpressed in many cancers.As compared to the control probe MPA-Ph-R-YSA without“FFG”,MPA-Ph-R-FFGYSA exhibits much higher fluorescent brightness and sensitivity in both cellular and in vivo studies on EphA2 cluster detection/imaging,as“FFG”is beneficial to closer assembly of AIEgens in EphA2 cluster,leading to more effective restriction of the intramolecular motion of AIEgen.In vivo studies demonstrate that MPA-Ph-R-FFGYSA is a safe bioprobe and gives excellent performance in FIGCS with a rather high T/NT ratio of^13.4 upon intravenous administration into peritoneal carcinomatosis-bearing mice.This study provides a new strategy of utilizing the close assembly of tumor microenvironment-responsive AIE probes for boost FIGCS.
