Jintong Zhao
YOU?
Author Swipe
View article: Aerobic degradation of hexachlorobenzene and pentachloronitrobenzene by Cupriavidus nantongensis HB4B5: Dechlorination mechanisms and bioremediation potential
Aerobic degradation of hexachlorobenzene and pentachloronitrobenzene by Cupriavidus nantongensis HB4B5: Dechlorination mechanisms and bioremediation potential Open
Organochlorine pesticides (OCPs), including hexachlorobenzene (HCB) and pentachloronitrobenzene (PCNB), are highly toxic and persistent pollutants that pose significant ecological and human health risks. Their chemical stability makes them…
View article: Identification of cuproptosis-related genes in septic shock based on bioinformatic analysis
Identification of cuproptosis-related genes in septic shock based on bioinformatic analysis Open
Background Septic shock is a life-threatening condition characterized by a failure of organ systems and a high mortality rate. Cuproptosis is a new form of cell death that is triggered by copper overload. However, the relationship between …
View article: Micronutrient Level Is Negatively Correlated with the Neutrophil‐Lymphocyte Ratio in Patients with Severe COVID‐19
Micronutrient Level Is Negatively Correlated with the Neutrophil‐Lymphocyte Ratio in Patients with Severe COVID‐19 Open
Aim . To explore the potential relationship between NLR and micronutrient deficiency in patients with severe COVID‐19 infection. Methods . Sixteen patients were categorized into the mild group (mild COVID‐19) and severe group (severe COVID…
View article: Cadmium Pollution Impact on the Bacterial Community Structure of Arable Soil and the Isolation of the Cadmium Resistant Bacteria
Cadmium Pollution Impact on the Bacterial Community Structure of Arable Soil and the Isolation of the Cadmium Resistant Bacteria Open
Microorganisms play an important role in the remediation of cadmium pollution in the soil and their diversity can be affected by cadmium. In this study, the bacterial community in arable soil samples collected from two near geographical si…
View article: An epigenome‐wide DNA methylation study of patients with COVID‐19
An epigenome‐wide DNA methylation study of patients with COVID‐19 Open
In the early 2000s, emerging SARS‐CoV‐2, which is highly pathogenic, posed a great threat to public health. During COVID‐19, epigenetic regulation is deemed to be an important part of the pathophysiology and illness severity. Using the Ill…
View article: An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25
An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25 Open
Background: Cadmium (Cd) is a severely toxic heavy metal to most microorganisms. Many bacteria have developed Cd 2+ resistance. Results: In this study, we isolated two different Cd 2+ resistance Bacillus sp . strains, Bacillus vietamensis …
View article: An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25
An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25 Open
Background: Cadmium (Cd) is a severely toxic heavy metal to most microorganisms. Many bacteria have developed Cd 2+ resistance. Results: In this study, we isolated two different Cd 2+ resistance Bacillus sp . strains, Bacillus vietamensis …
View article: An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25
An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25 Open
Background: Cadmium (Cd) is a severely toxic heavy metal to most microorganisms. Many bacteria have developed Cd 2+ resistance. Results: In this study, we isolated two different Cd 2+ resistance Bacillus sp . strains, Bacillus vietamensis …
View article: An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25
An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25 Open
Background: Cadmium (Cd) is a severely toxic heavy metal to most microorganisms. Many bacteria have developed Cd 2+ resistance. Results: In this study, we isolated two different Cd 2+ resistance Bacillus sp . strains, Bacillus vietamensis …
View article: An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25
An operon consisting of a P-type ATPase gene and a transcriptional regulator gene responsible for cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25 Open
Background: Cadmium (Cd) is a severely toxic heavy metal to most microorganisms. Many bacteria have developed Cd 2+ resistance. Results: In this study, we isolated two different Cd 2+ resistance Bacillus sp . strains, Bacillus vietamensis …
View article: An operon consisting of a P-type ATPase gene and a transcriptional regular gene given the different cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25
An operon consisting of a P-type ATPase gene and a transcriptional regular gene given the different cadmium resistances in Bacillus vietamensis 151-6 and Bacillus marisflavi 151-25 Open
Cadmium (Cd) is a severely toxic heavy metal to most microorganisms. Many bacteria have developed Cd2+ resistance. In this study, we isolated two different Cd2+ resistance Bacillus sp. strains, Bacillus vietamensis 151-6 and Bacillus maris…
View article: Improving Cadmium Resistance in Escherichia coli Through Continuous Genome Evolution
Improving Cadmium Resistance in Escherichia coli Through Continuous Genome Evolution Open
Cadmium (Cd) is a heavy metal that is extremely toxic to many organisms; however, microbes are highly adaptable to extreme conditions, including heavy metal contamination. Bacteria can evolve in the natural environment, generating resistan…
View article: Identification of bacterial laccase cueO mutation from the metagenome of chemical plant sludge
Identification of bacterial laccase cueO mutation from the metagenome of chemical plant sludge Open
Background The metagenome contains plenty of genetic resources and can be used to search for the novel gene or mutant. Results In this study, the bacterial laccase gene (cueO) with single or multiple mutations was directly cloned based on …