Correction: Aleem et al. Characterization of and Gene Families in the Soybeans in Response to Drought and Salinity Stresses. 2022, , 460.

In the original publication [...

Investigation of salt tolerance in cotton germplasm by analyzing agro-physiological traits and ERF genes expression.

The development of genotypes that can tolerate high levels of salt is crucial for the efficient use of salt-affected land and for enhancing crop productivity worldwide. Therefore, incorporating salinity tolerance is a critical trait that crops must possess. Salt resistance is a complex character, controlled by multiple genes both physiologically and genetically.

Drought and heat stress on cotton genotypes suggested agro-physiological and biochemical features for climate resilience.

This study aimed to investigate the impact of individual drought, heat, and combined drought and heat stress on twelve cotton genotypes, including eight tolerant and four susceptible genotypes. A field experiment was carried out by employing a randomized complete block split-plot design, with treatments (control, drought, heat, drought + heat), and cotton genotypes assigned to the main plots and sub-plots respectively. The results showed that the combined stress had a more severe impact on the yield and fiber quality of cotton genotypes compared to individual stresses.

Transgenerational impact of climatic changes on cotton production.

Changing climatic conditions are an increasing threat to cotton production worldwide. There is a need to develop multiple stress-tolerant cotton germplasms that can adapt to a wide range of environments. For this purpose, 30 cotton genotypes were evaluated for two years under drought (D), heat (H), and drought + heat stresses (DH) under field conditions.

Heterologous expression of cry3Bb1 and cry3 genes for enhanced resistance against insect pests in cotton.

Transgenic technology played a crucial role in developing insect-resistant plants resulting in the reduced application of pesticides. This article reports the expression of two cry proteins (Cry3Bb1 and Cry3) in cotton for enhanced resistance against chewing insect pests. The aforementioned genes were synthetically developed and were cloned under appropriate regulatory sequences followed by transformation into Eagle-2 genotype (Gossypium hirsutum) of cotton through shoot apex-cut Agro-infiltration.

Characterization of and Gene Families in the Soybeans in Response to Drought and Salinity Stresses.

Plant stresses causing accumulation of reactive oxidative species (ROS) are scavenged by effective antioxidant defense systems. Therefore, the present study performed genome-wide identification of superoxide dismutase () and glutathione peroxidase () gene families in cultivated and wild soybeans, and 11 other legume species. We identified a total of 101 and 95 genes of and , respectively, across thirteen legume species.

Genome-wide characterization and expression analysis of Erf gene family in cotton.

Background: AP2/ERF transcription factors are important in a variety of biological activities, including plant growth, development, and responses to biotic and abiotic stressors. However, little study has been done on cotton's AP2/ERF genes, although cotton is an essential fibre crop. We were able to examine the tissue and expression patterns of AP2/ERF genes in cotton on a genome-wide basis because of the recently published whole genome sequence of cotton.

Unraveling Heat Tolerance in Upland Cotton ( L.) Using Univariate and Multivariate Analysis.

The ever-changing global environment currently includes an increasing ambient temperature that can be a devastating stress for organisms. Plants, being sessile, are adversely affected by heat stress in their physiology, development, growth, and ultimately yield. Since little is known about the response of biochemical traits to high-temperature ambiance, we evaluated eight parental lines (five lines and three testers) and their 15 F hybrids under normal and high-temperature stress to assess the impact of these conditions over 2 consecutive years.

Genome-wide identification and evolution of Dof transcription factor family in cultivated and ancestral cotton species.

The DNA-binding with one finger (Dof) proteins are transcription factors involved in many biological processes in plants. To predict the evolutionary pattern, a genome-wide in-silico analysis of Dof TFs family in diploid (Gossypium arboreum and Gossypium raimondii) and allotetraploid (Gossypium hirsutum and Gossypium barbadense) cotton species were carried out. In G.

Salt stress induces physiochemical alterations in rice grain composition and quality.

Salinity has drastic effects on plant growth and productivity and is one of the major factors responsible for crop yield losses throughout the agricultural soils of the world. The mechanisms of salinity tolerance in plants are regulated by a set of inherent multigenes and prevalent environmental factors, which bring about a myriad of metabolic changes in each plant part. The stress-induced metabolic changes in the rice plant have been intensively studied, but extensively in plant parts such as stem, leaf, and root.