Overexpression <i>TRIM37</i> enhances PEX5 protein stability by promoting PEX5 monoubiquitination. by Lai Jiang (2401513)

Sequence of <i>DpAP2</i> promoter. by Lingru Ruan (18995544)

“…It was speculated that MeJA significantly decreased expression of <i>DpAP2</i> gene, then the decreasing <i>DpAP2</i> expression significantly inhibited expression of some key enzyme genes such as <i>PSY</i>, <i>PDS</i> and <i>GGPS</i> in carotenoid biosynthesis pathway. …”

Predicted <i>cis</i>-acting elements in <i>DpAP2</i> promoter. by Lingru Ruan (18995544)

“…It was speculated that MeJA significantly decreased expression of <i>DpAP2</i> gene, then the decreasing <i>DpAP2</i> expression significantly inhibited expression of some key enzyme genes such as <i>PSY</i>, <i>PDS</i> and <i>GGPS</i> in carotenoid biosynthesis pathway. …”

Economic indicators, including total revenue, variable costs and gross margin for the cattle feeding sector, on a monthly, and yearly basis for the period 2018–2022. by Jure Brečko (20314959)

Schematic diagram of the molecular mechanism by which TRIM37 improves MS by stabilizing PEX5 through monoubiquitination. by Lai Jiang (2401513)

Fig 5 - by Lingru Ruan (18995544)

Fig 2 - by Lingru Ruan (18995544)

Fig 4 - by Lingru Ruan (18995544)

(A) Yellow high fluidity silicone rubber is in the inner surface of the prosthesis, and red arrow shows the unfilled part. by Long Li (6555)

The differences in illumination (a-c) and their three-dimensional distributions (d-f) between RVL and RHL at different angles. by Fei Li (143236)

The differences in illumination (a-c) and their three-dimensional distributions (d-f) between RVL and CL at different angles. by Fei Li (143236)

Non-enzymatic antioxidants in hemolymph of honey bee workers. by Agnieszka Murawska (11021928)

Enzymes activity in hemolymph of honey bee workers. by Agnieszka Murawska (11021928)

Overexpression <i>TRIM37</i> inhibits inflammatory infiltration and alleviates demyelination in EAE model mice. by Lai Jiang (2401513)

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Achieving tunable electrical conductivity in organic materials is a key challenge for the development of next-generation semiconductors. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Achieving tunable electrical conductivity in organic materials is a key challenge for the development of next-generation semiconductors. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Achieving tunable electrical conductivity in organic materials is a key challenge for the development of next-generation semiconductors. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Achieving tunable electrical conductivity in organic materials is a key challenge for the development of next-generation semiconductors. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Achieving tunable electrical conductivity in organic materials is a key challenge for the development of next-generation semiconductors. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Achieving tunable electrical conductivity in organic materials is a key challenge for the development of next-generation semiconductors. …”