Your search keyword '"Ali, Qurban"' showing total 9 results

1. GC–MS analysis, molecular docking, and apoptotic-based cytotoxic effect of Caladium lindenii Madison extracts toward the HeLa cervical cancer cell line

Author

Kalsoom, Aasia, Altaf, Awais, Sarwar, Muhammad, Maqbool, Tahir, Ashraf, Muhammad Abdul Basit, Sattar, Huma, Shabbir, Ghulam, Ali, Qurban, and Javed, Muhammad Arshad

Published

2024

2. Genome wide identification of phenylalanine ammonia-lyase (PAL) gene family in Cucumis sativus (cucumber) against abiotic stress.

Author

Amjad, Muskan, Wang, Yuexia, Han, Shiming, Haider, Muhammad Zeshan, Sami, Adnan, Batool, Alia, Shafiq, Muhammad, Ali, Qurban, Dong, Jihong, Sabir, Irfan Ali, and Manzoor, Muhammad Aamir

Subjects

GENE expression, PHENYLALANINE ammonia lyase, CONSERVED sequences (Genetics), GENE families, CUCUMBERS

Abstract

Phenylalanine ammonia lyase (PAL) is a widely studied enzyme in plant biology due to its role in connecting primary metabolism to secondary phenylpropanoid metabolism, significantly influencing plant growth, development, and stress response. Although PAL genes have been extensively studied in various plant species but their exploration in cucumber has been limited. This study successfully identified 11 CsPAL genes in Cucumis sativus (cucumber). These CsPAL genes were categorized based on their conserved sequences revealing patterns through MEME analysis and multiple sequence alignment. Interestingly, cis-elements related to stress were found in the promoter regions of CsPAL genes, indicating their involvement in responding to abiotic stress. Furthermore, these gene's promoters contained components associated with light, development and hormone responsiveness. This suggests that they may have roles in hormone developmental processes. MicroRNAs were identified as a key regulators for the CsPAL genes, playing a crucial role in modulating their expression. This discovery underscores the complex regulatory network involved in the plant's response to various stress conditions. The influence of these microRNAs further highlights the complicated mechanisms that plants use to manage stress. Gene expression patterns were analyzed using RNA-seq data. The significant upregulation of CsPAL9 during HT3h (heat stress for 3 h) and the heightened upregulation of both CsPAL9 and CsPAL7 under HT6h (heat stress for 6 h) in the transcriptome study suggest a potential role for these genes in cucumber's tolerance to heat stress. This comprehensive investigation aims to enhance our understanding of the PAL gene family's versatility, offering valuable insights for advancements in cucumber genetics. [ABSTRACT FROM AUTHOR]

Published

2024

3. Antioxidant production promotes defense mechanism and different gene expression level in Zeamays under abiotic stress.

Author

Ali, Qurban, Sami, Adnan, Haider, Muhammad Zeshan, Ashfaq, Muhammad, and Javed, Muhammad Arshad

Subjects

*ABIOTIC stress, *GENE expression, *GLUTATHIONE reductase, *SOIL salinity, *STRESS concentration, *CORN

Abstract

The growth and productivity of maize are severely affected by soil salinity. The crucial determinants for the future performance of plants are productive for seed germination and seedling establishment; however, both stages are liable to soil salinity. For grain, maize is an economically significant crop sensitive to abiotic stresses. However, little is known about defense responses by the salinity-induced antioxidant and oxidative stress in maize. In our work, the commercially available maize variety Raka-Poshi was grown in pots for 30 days under greenhouse conditions. To evaluate the salt-induced oxidative/antioxidant responses in maize for salt stress 0, 25, 50, 75, 100 and 150 mM concentrations, treatments were provided using sodium chloride (NaCl). All the biochemical indices were calculated under all NaCl concentrations, while drought was induced by up to 50% irrigation water. After 30 days of seed germination, the maize leaves were collected for the measurement of lipid peroxidase or malondialdehyde (MDA), glutathione reductase (GR), guaiacol peroxidase (GPOD), hydrogen peroxide (H2O2), superoxide dismutase (SOD), lipoxygenase (LOX), catalase (CAT), ascorbate peroxidase (APOD) and glutathione-S-transferase (GST). The results revealed a 47% reduction under 150 mM NaCl and 50% drought stress conditions. The results have shown that the successive increase of NaCl concentrations and drought caused an increase in catalase production. With successive increase in NaCl concentration and drought stress, lower levels of H2O2, SOD, and MDA were detected in maize leaves. The results regarding the morphology of maize seedlings indicated a successive reduction in the root length and shoot length under applications of salt and drought stress, while root-to-shoot weights were found to be increased under drought stress and decreased under salt stress conditions During gene expression analysis collectively indicate that, under drought stress conditions, the expression levels of all nine mentioned enzyme-related genes were consistently downregulated. [ABSTRACT FROM AUTHOR]

Published

2024

4. Genome-wide identification and in-silico expression analysis of carotenoid cleavage oxygenases gene family in Oryza sativa (rice) in response to abiotic stress.

Author

Haider, Muhammad Zeshan, Sami, Adnan, Shafiq, Muhammad, Anwar, Waheed, Ali, Sajid, Ali, Qurban, Muhammad, Sher, Manzoor, Irfan, Shahid, Muhammad Adnan, Ali, Daoud, and Alarifi, Saud

Subjects

GENE expression, GENE families, ABIOTIC stress, OXYGENASES, RNA analysis, RICE

Abstract

Rice constitutes a foundational cereal and plays a vital role in the culinary sector. However, the detriments of abiotic stress on rice quality and productivity are noteworthy. Carotenoid cleavage oxygenases (CCO) hold vital importance as they enable the particular breakdown of carotenoids and significantly contribute towards the growth and response to abiotic stress in rice. Due to the insufficient information regarding rice CCOs and their potential role in abiotic stress, their utilization in stress-resistant genetic breeding remains limited. The current research identified 16 CCO genes within the Oryza sativa japonica group. These OsCCO genes can be bifurcated into three categories based on their conserved sequences: NCEDs (9-Cis-epoxycarotenoid dioxygenases), CCDs (Carotenoid cleavage dioxygenases) and CCD-like (Carotenoid cleavage dioxygenases-like). Conserved motifs were found in the OsCCO gene sequence via MEME analysis and multiple sequence alignment. Stress-related cis-elements were detected in the promoter regions of OsCCOs genes, indicating their involvement in stress response. Additionally, the promoters of these genes had various components related to plant light, development, and hormone responsiveness, suggesting they may be responsive to plant hormones and involved in developmental processes. MicroRNAs play a pivotal role in the regulation of these 16 genes, underscoring their significance in rice gene regulation. Transcriptome data analysis suggests a tissue-specific expression pattern for rice CCOs. Only OsNCED6 and OsNCED10 significantly up-regulated during salt stress, as per RNA seq analyses. CCD7 and CCD8 levels were also higher in the CCD group during the inflorescence growth stage. This provides insight into the function of rice CCOs in abiotic stress response and identifies possible genes that could be beneficial for stress-resistant breeding. [ABSTRACT FROM AUTHOR]

Published

2023

5. Genome Identification and Characterization of WRKY Transcription Factor Gene Family in Mandarin (Citrus reticulata).

Author

Maheen, Nimra, Shafiq, Muhammad, Sadiq, Saleha, Farooq, Muhammad, Ali, Qurban, Habib, Umer, Shahid, Muhammad Adnan, Ali, Asjad, and Ali, Fawad

Subjects

MANDARIN orange, TRANSCRIPTION factors, GENE expression, FRUIT quality, PLANT development, CHELATING agents

Abstract

WRKY proteins are an important group of transcription factors (TFs) gene family and were identified primarily in plants. WRKY TFs play vital roles in modulating gene expression when plants face detrimental effects due to the environment. In the current study, we focused on using the mandarin citrus (Citrus reticulata) genome to understand the impact of the WRKY gene family on the extraction of alleles mining in mandarins. The mining of the C. reticulata genome identified 46 CrWRKY genes that were classified into three main groups (G1, G2, and G3) further with five subclasses (IIa, IIb, IIc, Iid, and IIe) in the G2 group, and all were presented on 29 scaffolds representing numerous segmental duplications of 100% events established. Multiple sequence analysis predicted the presence of the "WRKYGQK" domain and metal-chelating zinc-finger motif C2H2 in 45 genes, while the "WRKYGQK" domain was replaced with "WRKYGKK" only in CrWRKY20. The comparative relationship of CrWRKY with other plant species using dual synteny analysis revealed that the divergence between C. reticulata and C. grandis occurred after the evolutionary divergence of C. clementine, C. sinensis, C. medica, and C. ichangensis. The possible functions of the CrWRKY genes in mitigating environmental effects were predicted using cis-regulatory elements analysis and in silico RNAseq analysis, for the development of plants. These results provide a robust platform and absence of knowledge for the functional identification from key genes of CrWRKY genes in the mandarin for the possible use to improve key desirable agronomic and consumer-driven fruit quality traits in mandarins and related species. [ABSTRACT FROM AUTHOR]

Published

2023

6. Genome-Wide Identification, and In-Silico Expression Analysis of YABBY Gene Family in Response to Biotic and Abiotic Stresses in Potato (Solanum tuberosum).

Author

Mazhar, Hafiz Sabah-Ud-Din, Shafiq, Muhammad, Ali, Haider, Ashfaq, Muhammad, Anwar, Alia, Tabassum, Javaria, Ali, Qurban, Jilani, Ghulam, Awais, Muhammad, Sahu, Ravi, and Javed, Muhammad Arshad

Subjects

GENE expression, GENE families, ABIOTIC stress, MOLECULAR cloning, LEAF development, POTATOES

Abstract

YABBY is among the specific transcription factor (TF) gene family in plants and plays an important role in the development of the leaves and floral organs. Its specific roles include lateral organ development, the establishment of dorsoventral polarity, and response to abiotic stress. Potato is an important crop worldwide and YABBY genes are not still identified and characterized in potato. So, little has been known about YABBY genes in potato until now. This study was carried out to perform genome-wide analysis, which will provide an in-depth analysis about the role of YABBY genes in potato. There have been seven StYAB genes identified, which are found to be located on seven different chromosomes. Through multiple sequence analyses, it has been predicted that the YABBY domain was present in all seven genes while the C2-C2 domain was found to be absent only in StYAB2. With the help of cis-element analysis, the involvement of StYAB genes in light, stress developmental, and hormonal responsiveness has been found. Furthermore, expression analysis from RNA-seq data of different potato organs indicated that all StYAB genes have a role in the vegetative growth of the potato plant. In addition to this, RNA-seq data also identified StYAB3, StYAB5, and StYAB7 genes showing expression during cadmium, and drought stress, while StYAB6 was highly expressed during a viral attack. Moreover, during the attack of Phytophthora infestans on a potato plant StYAB3, StYAB5, StYAB6, and StYAB7 showed high expression. This study provides significant knowledge about the StYAB gene structures and functions, which can later be used for gene cloning, and functional analysis; this information may be utilized by molecular biologists and plant breeders for the development of new potato lines. [ABSTRACT FROM AUTHOR]

Published

2023

7. Transformation and expressional studies of GaZnF gene to improve drought tolerance in Gossypium hirsutum.

Author

Batool, Fatima, Hassan, Sameera, Azam, Saira, Sher, Zunaira, Ali, Qurban, and Rashid, Bushra

Subjects

DROUGHT tolerance, COTTON, SOUTHERN blot, TRANSMEMBRANE domains, GENE expression, ZINC-finger proteins, TRANSGENIC plants

Abstract

Drought stress is the major limiting factor in plant growth and production. Cotton is a significant crop as textile fiber and oilseed, but its production is generally affected by drought stress, mainly in dry regions. This study aimed to investigate the expression of Zinc finger transcription factor's gene (GaZnF) to enhance the drought tolerance in Gossypium hirsutum. Sequence features of the GaZnF protein were recognized through different bioinformatics tools like multiple sequence alignment analysis, phylogenetic tree for evolutionary relationships, Protein motifs, a transmembrane domain, secondary structure and physio-chemical properties indicating that GaZnF is a stable protein. CIM-482, a local Gossypium hirsutum variety was transformed with GaZnF through Agrobacterium-mediated transformation method with 2.57% transformation efficiency. The integration of GaZnF was confirmed through Southern blot showing 531 bp, and Western blot indicated a 95 kDa transgene-GUS fusion band in transgenic plants. The normalized real-time expression analysis revealed the highest relative fold spatial expression of cDNA of GaZnF within leaf tissues at vegetative and flowering stages under drought stress. Morphological, physiological and biochemical parameters of transgenic cotton plants at 05- and 10-day drought stress was higher than those of non-transgenic control plants. The values of fresh and dry biomass, chlorophyll content, photosynthesis, transpiration rate, and stomatal conductance reduced in GaZnF transgenic cotton plants at 05- and 10-day drought stress, but their values were less low in transgenic plants than those of non-transgenic control plants. These findings showed that GaZnF gene expression in transgenic plants could be a valuable source for the development of drought-tolerant homozygous lines through breeding. [ABSTRACT FROM AUTHOR]

Published

2023

8. Cloning and expression of an anti-cancerous cytokine: human IL-29 gene in Chlamydomonas reinhardtii.

Author

Akram, Maham, Khan, Mohsin Ahmad, Ahmed, Nadeem, Bhatti, Rashid, Pervaiz, Rabbia, Malik, Kausar, Tahir, Saad, Abbas, Rabia, Ashraf, Fareeha, and Ali, Qurban

Subjects

GENE expression, CHLAMYDOMONAS, CHLAMYDOMONAS reinhardtii, MOLECULAR cloning, ENDOTOXINS, HUMAN genes, RECOMBINANT proteins

Abstract

Green algae, Chlamydomonas reinhardtii, with low cultivation cost, absence of endotoxins and insusceptibility to human pathogens is emerging as a potential system for the future production of recombinant proteins. The recent development of molecular tools enabling recombinant protein expression in algae chloroplast has provided new research and advance opportunities for developing low-cost therapeutic proteins. In the present study, algae chloroplast expression system was evaluated for the recombinant production of an anti-cancerous therapeutic protein, Interleukin 29 (IL29). The IL29 gene was cloned into algae chloroplast expression vector (pSRSapI). After the transformation, the positive clones were screened for homoplasmy and the presence of the IL29 gene by spot test and PCR analysis, respectively. The expressed SDS-PAGE and western blotting assay characterized IL-29. The algae expressed IL-29 was biologically active in an anti-proliferating bioassay using HepG2 cells. The results suggest that the Chlamydomonas reinhardtii expression system is convenient, low-cost, eco-friendly, and safe to express IL29. Key points: The IL29 gene cloning in pSRSapI. IL-29 found as biologically active. [ABSTRACT FROM AUTHOR]

Published

2023

9. GENE EXPRESSION IN RESPONSE TO COTTON LEAF CURL VIRUS INFECTION IN Gossypium hirsutum UNDER VARIABLE ENVIRONMENTAL CONDITIONS.

Author

REHMAN, Iqra, AFTAB, Beenish, BILAL SARWAR, Muhammad, RASHID, Bushra, ALI, Qurban, Majid, Muhammad Umair, HASSAN, Sameera, AZAM ALI, Muhammad, AHMAD NASIR, Idrees, SALEEM HAIDER, Muhammad, and HUSNAIN, Tayyab

Subjects

GENE expression in plants, COTTON leaf curl, GENETICS of virus diseases, COTTON genetics, PLANT growth

Abstract

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Published

2017