The code for mapping.

The code for mapping

The Maize Landcover in 2015 in Northern China

The landcover of maize with a resolution of 30 m in 2015 in the Northern part of China

The Maize Landcover in 2021 in Northern China

The landcover of maize with a resolution of 30 m in 2021 in the Northern part of China

The Maize Landcover in 2017 in Northern China

The landcover of maize with a resolution of 30 m in 2017 in the Northern part of China

The Maize Landcover in 2014 in Northern China

The landcover of maize with a resolution of 30 m in 2014 in the Northern part of China

The Maize Landcover in 2019 in Northern China

The landcover of maize with a resolution of 30 m in 2019 in the Northern part of China

The Maize Landcover in 2018 in Northern China

The landcover of maize with a resolution of 30 m in 2018 in the Northern part of China

The Maize Landcover in 2016 in Northern China

The landcover of maize with a resolution of 30 m in 2016 in the Northern part of China

Extracellular Biocoordinated Zinc Nanofibers Inhibit Malignant Characteristics of Cancer Cell

Inhibition of the heat shock proteins (HSPs) has been considered to be one of the promising strategies for cancer treatment. However, developing highly effective HSP inhibitors remains a challenge. Recent studies on the evolutionarily distinct functions between intracellular and extracellular HSPs (eHSPs) trigger a new direction with eHSPs as chemotherapeutic targets. Herein, the first engineered eHSP nanoinhibitor with high effectiveness is reported. The zinc–aspartic acid nanofibers have specific binding ability to eHSP90, which induces a decrease in the level of the tumor marker-gelatinases, consequently resulting in downregulation of the tumor-promoting inflammation nuclear factor-kappa B signaling, and finally inhibiting cancer cell proliferation, migration, and invasion; while they are harmless to normal cells. Our findings highlight the potential for cancer treatment by altering the key determinants that shape its ability to adapt and evolve using novel nanomaterials

The Maize Landcover in 2013 in Northern China

The landcover of maize with a resolution of 30 m in 2013 in the Northern part of China