Your search keyword '"Fiaz, Sajid"' showing total 11 results

1. Combined application of zinc and silicon alleviates terminal drought stress in wheat by triggering morpho-physiological and antioxidants defense mechanisms

Author

Sattar, Abdul, Wang, Xiukang, Abbas, Tahira, Sher, Ahmad, Ijaz, Muhammad, Ul-Allah, Sami, Irfan, Muhammad, Butt, Madiha, Wahid, Muhammad Ashfaq, Cheema, Mumtaz, Fiaz, Sajid, Qayyum, Abdul, Ansari, Mohammad Javed, Alharbi, Sulaiman Ali, Wainwright, Milton, Ahmad, Furqan, Xie, Kui, Tan, Ali Kee Zuan, Sattar, Abdul, Wang, Xiukang, Abbas, Tahira, Sher, Ahmad, Ijaz, Muhammad, Ul-Allah, Sami, Irfan, Muhammad, Butt, Madiha, Wahid, Muhammad Ashfaq, Cheema, Mumtaz, Fiaz, Sajid, Qayyum, Abdul, Ansari, Mohammad Javed, Alharbi, Sulaiman Ali, Wainwright, Milton, Ahmad, Furqan, Xie, Kui, and Tan, Ali Kee Zuan

Abstract

Wheat is an important global staple food crop; however, its productivity is severely hampered by changing climate. Erratic rain patterns cause terminal drought stress, which affect reproductive development and crop yield. This study investigates the potential and zinc (Zn) and silicon (Si) to ameliorate terminal drought stress in wheat and associated mechanisms. Two different drought stress levels, i.e., control [80% water holding capacity (WHC) was maintained] and terminal drought stress (40% WHC maintained from BBCH growth stage 49 to 83) combined with five foliar-applied Zn-Si combinations (i.e., control, water spray, 4 mM Zn, 40 mM Si, 4 mM Zn + 40 mM Si applied 7 days after the initiation of drought stress). Results revealed that application of Zn and Si improved chlorophyll and relative water contents under well-watered conditions and terminal drought stress. Foliar application of Si and Zn had significant effect on antioxidant defense mechanism, proline and soluble protein, which showed that application of Si and Zn ameliorated the effects of terminal drought stress mainly by regulating antioxidant defense mechanism, and production of proline and soluble proteins. Combined application of Zn and Si resulted in the highest improvement in growth and antioxidant defense. The application of Zn and Si improved yield and related traits, both under well-watered conditions and terminal drought stress. The highest yield and related traits were recorded for combined application of Zn and Si. For grain and biological yield differences among sole and combined Zn-Si application were statistically non-significant (p>0.05). In conclusion, combined application of Zn-Si ameliorated the adverse effects of terminal drought stress by improving yield through regulating antioxidant mechanism and production of proline and soluble proteins. Results provide valuable insights for further cross talk between Zn-Si regulatory pathways to enhance grain biofortification.

Published

2021

2. Evaluation of Pakistani wheat germplasm for leaf rust resistance at various locations.

Author

Asghar, Sabina, Rehman, Aziz Ur, Ahmad, Nadeem, Ajmal, Sadia, Ahsan, Aneela, Gulnaz, Saima, Javed, Makky, Ahmad, Javed, Iqbal, Javed, Bibi, Sumera, Fiaz, Sajid, Elesawy, Basem H., Askary, Ahmad El, Ismail, Khadiga Ahmed, Gharib, Amal F., Mohyo-ud-Din, Ahsan, Tabassum, Muhammad Ijaz, and Qayyum, Abdul

Subjects

LEAF rust of wheat, WHEAT, PUCCINIA triticina, PERIODICAL reading, ECOLOGICAL zones, PAKISTANIS

Abstract

341 entries comprising of 250 genotypes/lines and 91 gene differentials were tested for leaf rust (Puccinia triticina Erik) in different ecological zones of Punjab during 2016–17 and 2017–18. Each entry was planted in a single 1 m long row and Morocco was used as a spreader. Data on leaf rust severity was recorded once in 3rd week of March during both study years at all locations by following Modified Cobb Scale while the data was recorded three times on 2nd, 22nd and 29th March during 2018 at Faisalabad location to study rust development pattern. The disease severity ranged from 0-100S during 2016–17 and from 0-80S during 2017–18. The genotype HYT 60–5 and the genes Lr-19, Lr-26 and Lr 27+31 showed no disease symptoms at any location during both the study years. These genes can be used for future breeding material development. Area under disease progressive curve (AUDPC), calculated on the basis of periodical readings from Faisalabad, ranged from 0–550 and the susceptible check Morocco has AUDPC value of 600. 120 entries including HYT 60–5 have disease progression 0, which showed that there may be a major gene based resistance in these entries. Area under disease progressive curve/Day (AUDPC/DAY) was calculated for the rest of 130 genotypes to have an understanding of the disease progression pattern and out of which 43 entries have AUDPC/Day value ranging from 1–2 and 28 entries have AUDPC/Day value ranging from 2–3 which revealed that these entries are very useful for use in breeding for durable rust resistance and can be utilized as a parent in back cross and top cross breeding schemes. Material with AUDPC value less than 10 is the best source of resistance against the leaf rust. Varieties/advanced lines, Ujala-16, V-14154, and V-14124 have shown slow rust development and are very good sources of resistance. Similarly, HYT 60–5 has proven an excellent source of resistance. The advance line V-14154 has been approved as a commercial cultivar by the name "Akbar-19". [ABSTRACT FROM AUTHOR]

Published

2022

3. Antimicrobial activities of different solvent extracts from stem and seeds of Peganum Harmala L.

Author

Arif, Muhammad, Wang, Xiukang, Kazi, Mohammad Sayyar Khan, Ullah Khan, Shahid, Saeed, Sumbul, Khan, Amir Muhammad, Khan, Rahmat Ali, Afzal, Masood, Nawaz, Ayesha Fazal, Zia, Muhammad Amir, O. Elansary, Hosam, Shokralla, Shadi, Alhalabi, Abdullah, Gul, Alia, and Fiaz, Sajid

Subjects

PEGANUM harmala, ANTI-infective agents, ESCHERICHIA coli, GRAM-negative bacteria, GRAM-positive bacteria, ETHYL acetate, KLEBSIELLA pneumoniae, CLOSTRIDIUM acetobutylicum

Abstract

Wild medicinal herbs have been used as folk and traditional medicines all across the world since well before recorded history. This present study was designed to test the antimicrobial activities of five different solvent extracted samples (n-hexane, n-butanol, ethyl acetate, methanol, and water) of Peganum harmala using stems and seeds. Two different strains of Gram-negative bacteria (Escherichia coli and Klebsiella pneumonia), two Gram-positive bacteria (Bacillus subtilus and Staphylococcus aureus), and one fungal strain (Candida albicans) were used. The antimicrobial activities were measured using a disc diffusion assay. Two concentrations of the extracts (1 and 2mgDisc-1) were used. Ethyl acetate fraction was found more affective among the tested solvents and showed maximum activity (zone of inhibition) against S. aureus (65.53 and 81.10%), E. coli (46.22 and 61.29%) while n-butanol and water fractions gave maximum activity against S. aureus (78.86 and 70.00%) and K. pneumonia (57.00 and 61.39%) respectively. Water fraction showed maximum activity against C. albicans (60.00 and 81.88%). In the case of the stem, Ethyl acetate again showed more activity against B. subtilus (38.57 and 42.10%) and S. aureus (36.66 and 46.66%) while n-butanol showed maximum activity against K. pneumonia (24.55 and 32.44%) and E. coli (27.93 and 37.61%). Methanol was found more effective against C. albicans (25.71 and 43.80%). Seed extracted samples were found more effective compared to the stem. Ethyl acetate, butanol, and aqueous extracted samples showed good activity against the tested microbes, so these fractions are recommended for study their mechanism of actions and isolation of bioactive metabolites responsible for antimicrobial activities. The P. harmala should be evaluated for their bioactive compounds to be used in future studies. Our objective is to provide the framework for future study on the roles of P. harmala as traditional medicines. [ABSTRACT FROM AUTHOR]

Published

2022

4. Physio-biochemical responses and expressional profiling analysis of drought tolerant genes in new promising rice genotype.

Author

Freeg, Haytham A., Attia, Kotb A., Casson, Stuart, Fiaz, Sajid, Ramadan, Ebrahim A., Banna, Antar El-, Zoulias, Nicholas, Aboshosha, Ali, and Alamery, Salman

Subjects

DROUGHT tolerance, DROUGHTS, GENOTYPES, WATER shortages, RICE, QUANTUM efficiency

Abstract

Rice cultivation in Egypt is limited by the scarcity of water resources. The main strategy of rice breeders to overcome this problem is to develop new high-yielding varieties that are tolerant to drought stress. In this study, an drought-tolerant (IR60080-46A) variety was crossed with commercial Egyptian varieties using the back-cross method and marker-assisted selection (MAS) approach. The advanced lines of these crosses were selected under drought stress conditions. The best-performing candidate line, RBL-112, and its parental genotypes, were evaluated under drought stress and control conditions. The RBL-112 line showed superior its root system, which in turn produced higher grain yield under drought-stress conditions than its parental and check genotypes. Furthermore, physiological and biochemical studies showed that the RBL-112 line maintained higher relative water content (RWC), maximum quantum efficiency of photosystem II (Fv/Fm) values, proline content, superoxide dismutase (SOD) activity, and lower malondialdehyde (MDA) content compared to its parents and the check. The functional expression profiles of 22 drought tolerance-related genes were studied, out of which the genes OsAHL1, OsLEA3, OsCATA, OsP5CS, OsSNAC1, Os1g64660, OsRab21, OsAPX2, OsDREB2A, OsSKIPa, and OsLG3 were strongly induced in the newly developed RBL-112 line under drought-stress conditions. It could be concluded that the new line has a higher capacity to modulate physiological activities and expression levels of several drought-induced genes to withstand drought stress with high yielding ability. This finding suggests that the RBL-112 line presents a promising new addition to enable sustainable rice cultivation under water-limited conditions, and confirms the efficiency of the approach implemented in the current study. [ABSTRACT FROM AUTHOR]

Published

2022

5. Identification of C-T novel polymorphism in 3rd exon of OsSPL14 gene governing seed sequence in rice.

Author

Din, Muhammad Salah ud, Wang, Xiukang, Alamery, Salman, Fiaz, Sajid, Rasheed, Haroon, Khan, Muhammad Abid, Khan, Shahid Ullah, Saeed, Sumbul, Ali, Niaz, Marwat, Kalim Ullah, Attia, Kotb, Kimiko, Itoh, and Wani, Shabir Hussain

Subjects

RICE seeds, CROP improvement, FOOD shortages, PROMOTERS (Genetics), GENES

Abstract

Recently food shortage has become the major flagging scenario around the globe. To resolve this challenge, there is dire need to significantly increase crop productivity per unit area. In the present study, 24 genotypes of rice were grown in pots to assess their tillering number, number of primary and secondary branches per panicle, number of grains per panicle, number of grains per plant, and grain yield, respectively. In addition, the potential function of miR156 was analyzed, regulating seed sequence in rice. Furthermore, OsSPL14 gene for miR156 was sequenced to identify additional mutations within studied region. The results demonstrated Bas-370 and L-77 showed highest and lowest tillers, respectively. Bas-370, Rachna basmati, Bas-2000, and Kashmir Basmati showed high panicle branches whereas, L-77, L-46, Dilrosh, L-48, and L-20 displayed lowest panicle branches. Bas-370 and four other studied accessions contained C allele whereas, L-77 and 18 other investigated accessions had heterozygous (C and T) alleles in their promoter region. C-T allelic mutation was found in 3rd exon of the OsSPL14 gene. The sequence analysis of 12 accessions revealed a novel mutation (C-T) present ~2bp upstream and substitution of C-A allele. However, no significant correlation for novel mutation was found for tillering and panicle branches in studied rice accessions. Taken together present results suggested novel insight into the binding of miR156 to detected mutation found in 3rd exon of the OsSPL14 gene. Nevertheless, L-77, L-46, Dilrosh, L-48, and L-20 could be used as potential breeding resource for improving panicle architecture contributing yield improvement of rice crop. [ABSTRACT FROM AUTHOR]

Published

2022

6. Novel insights into Pinus species plastids genome through phylogenetic relationships and repeat sequence analysis.

Author

Zeb, Umar, Wang, Xiukang, Fiaz, Sajid, Azizullah, Azizullah, Shah, Asad Ali, Ali, Sajjad, Rahim, Fazli, Ullah, Hafiz, Leghari, Umed Ali, Wang, Weiqiang, and Nawaz, Taufiq

Subjects

CHLOROPLAST DNA, PINE, SEQUENCE analysis, PLASTIDS, SPECIES, GENETIC markers

Abstract

Pinus is one of the most economical and ecological important conifers, model specie for studying sequence divergence and molecular phylogeney of gymnosperms. The less availability of information for genome resources enable researchers to conduct evolutionary studies of Pinus species. To improve understanding, we firstly reported, previously released chloroplast genome of 72 Pinus species, the sequence variations, phylogenetic relationships and genome divergence among Pinus species. The results displayed 7 divergent hotspot regions (trnD-GUC, trnY-GUA, trnH-GUG, ycf1, trnL-CAA, trnK-UUU and trnV-GAC) in studied Pinus species, which holds potential to utilized as molecular genetic markers for future phylogenetic studies in Pinnus species. In addition, 3 types of repeats (tandem, palindromic and dispersed) were also studied in Pinus species under investigation. The outcome showed P. nelsonii had the highest, 76 numbers of repeats, while P. sabiniana had the lowest, 13 13 numbers of repeats. It was also observed, constructed phylogenetic tree displayed division into two significant diverged clades: single needle (soft pine) and double-needle (hard pine). Theoutcome of present investigation, based on the whole chloroplast genomes provided novel insights into the molecular based phylogeny of the genus Pinus which holds potential for its utilization in future studies focusing genetic diversity in Pinnus species. [ABSTRACT FROM AUTHOR]

Published

2022

7. Genome-wide analysis of bZIP, BBR, and BZR transcription factors in Triticum aestivum.

Author

Ahad, Arzoo, Aslam, Roohi, Gul, Alvina, Amir, Rabia, Munir, Faiza, Batool, Tuba Sharf, Ilyas, Mahnoor, Sarwar, Muhammad, Nadeem, Muhammad Azhar, Baloch, Faheem Shehzad, Fiaz, Sajid, and Zia, Muhammad Abu Bakar

Subjects

WHEAT, TRANSCRIPTION factors, SORGHUM, CELLULAR signal transduction, CORN, RICE, BRACHYPODIUM

Abstract

Transcription factors are regulatory proteins known to modulate gene expression. These are the critical component of signaling pathways and help in mitigating various developmental and stress responses. Among them, bZIP, BBR, and BZR transcription factor families are well known to play a crucial role in regulating growth, development, and defense responses. However, limited data is available on these transcription factors in Triticum aestivum. In this study, bZIP, BBR, and BZR sequences from Brachypodium distachyon, Oryza sativa, Oryza barthii, Oryza brachyantha, T. aestivum, Triticum urartu, Sorghum bicolor, Zea mays were retrieved, and dendrograms were constructed to analyze the evolutionary relatedness among them. The sequences clustered into one group indicated a degree of evolutionary correlation highlighting the common lineage of cereal grains. This analysis also exhibited that these genes were highly conserved among studied monocots emphasizing their common ancestry. Furthermore, these transcription factor genes were evaluated for envisaging conserved motifs, gene structure, and subcellular localization in T. aestivum. This comprehensive computational analysis has provided an insight into transcription factor evolution that can also be useful in developing approaches for future functional characterization of these genes in T. aestivum. Furthermore, the data generated can be beneficial in future for genetic manipulation of economically important plants. [ABSTRACT FROM AUTHOR]

Published

2021

8. Diet impacts on the biological aspects of pink bollworm, Pectinophora gossypiella (Lepidoptera: Gelechiidae) under controlled laboratory conditions.

Author

Ihsan, Arbab, Khan, Khalid Ali, Sagir, Muhammad, Nawaz, Ahmad, Fiaz, Sajid, Yasmin, Farkhanda, Rasheed, Majeeda, Ali, Habib, Shaheen, Musarrat, Mahmoud, Samy F., Sayed, Samy, Ur Rahman, Shafeeq, Bilal, Yasir, Ramzan, Muhammad, Nazir, Talha, Khan, Shumaila, Waqas, Muhammad Mohsin, Tayyib, Muhammad, Hussain, Fiaz, and Ali, Muhammad Yousaf

Subjects

PINK bollworm, OKRA, GELECHIIDAE, DIET, WHEAT germ, LEPIDOPTERA, BT cotton, CHICKPEA

Abstract

Background: Pink bollworm, Pectinophora gossypiella (Lepidoptera: Gelechiidae) is a native pest of Asia and preferably invasion on cotton (Gossypium hirsutum L.) crop as a commendatory host plant. Commercially, G. hirsutum is known as white gold and is an important cash crop all over the globe. Limited studies were published to focus on certain dietary compositions against different cotton pests. Therefore, the present study was undertaken in the laboratory under controlled conditions (temperature: 27 ± 2°C and relative humidity: 60 ± 10%) to determine the impact of three different treatment diets (wheat germ meal, okra, and chickpea) on the biological aspects (lifetime, developmental period) of P. gossypiella. Results: Results revealed that the shortest larval time of P. gossypiella was observed on the okra feed diet while the longest period was recorded on the wheat germ diet. Meanwhile, the pupation delay was noted on the wheat germ diet. The dietary influence was also observed on adult stages of female and male P. gossypiella (43.00 and 37.50 days respectively) and compared with a standard diet (56.50 and 52.50 days respectively). Furthermore, larval weighed more on the okra and chickpea diet followed by the wheat germ diet, whereas highest pupal weight was observed on the standard diet followed by the chickpea diet and okra diet. Conclusion: Developmental parameters were significantly variant across all treatment diets, whereas the higher significant difference was reported on the okra diet. Therefore, the existing data of this study offers fruitful interventions for the future as a modified diet for large-scale and rapid mass production of P. gossypiella larvae. [ABSTRACT FROM AUTHOR]

Published

2021

9. Characterization of Vascular plant One-Zinc finger (VOZ) in soybean (Glycine max and Glycine soja) and their expression analyses under drought condition.

Author

Rehman, Shoaib Ur, Qanmber, Ghulam, Tahir, Muhammad Hammad Nadeem, Irshad, Ahsan, Fiaz, Sajid, Ahmad, Furqan, Ali, Zulfiqar, Sajjad, Muhammad, Shees, Muhammad, Usman, Muhammad, and Geng, Zhide

Subjects

VASCULAR plants, AMINO acid residues, DROUGHTS, POLYETHYLENE glycol, TRANSCRIPTION factors

Abstract

Vascular plant one-zinc-finger (VOZ) transcription factors regulate plant growth and development under drought conditions. Six VOZ transcription factors encoding genes exist in soybean genome (both in Glycine max and Glycine soja). Herein, GmVOZs and GsVOZs were identified through in silico analysis and characterized with different bioinformatics tools and expression analysis. Phylogenetic analysis classified VOZ genes in four groups. Sequence logos analysis among G. max and G. soja amino acid residues revealed higher conservation. Presence of stress related cis-elements in the upstream regions of GmVOZs and GsVOZs highlights their role in tolerance against abiotic stresses. The collinearity analysis identified 14 paralogous/orthologous gene pairs within and between G. max and G. soja. The Ka/Ks values showed that soybean VOZ genes underwent selection pressure with limited functional deviation arising from whole genome and segmental duplication. The GmVOZs and GsVOZs were found to express in roots and leaves at seedling stage. The qRT-PCR revealed that GmVOZs and GsVOZs transcripts can be regulated by abiotic stresses such as polyethylene glycol (PEG). The findings of this study will provide a reference to decipher physiological and molecular functions of VOZ genes in soybean. [ABSTRACT FROM AUTHOR]

Published

2021

10. Identification of C-T novel polymorphism in 3rd exon of OsSPL14 gene governing seed sequence in rice.

Author

Din MSU, Wang X, Alamery S, Fiaz S, Rasheed H, Khan MA, Khan SU, Saeed S, Ali N, Marwat KU, Attia K, Kimiko I, and Wani SH

Subjects

Exons genetics, Gene Expression Regulation, Plant, Plant Breeding, Seeds genetics, Oryza genetics, Oryza metabolism

Abstract

Recently food shortage has become the major flagging scenario around the globe. To resolve this challenge, there is dire need to significantly increase crop productivity per unit area. In the present study, 24 genotypes of rice were grown in pots to assess their tillering number, number of primary and secondary branches per panicle, number of grains per panicle, number of grains per plant, and grain yield, respectively. In addition, the potential function of miR156 was analyzed, regulating seed sequence in rice. Furthermore, OsSPL14 gene for miR156 was sequenced to identify additional mutations within studied region. The results demonstrated Bas-370 and L-77 showed highest and lowest tillers, respectively. Bas-370, Rachna basmati, Bas-2000, and Kashmir Basmati showed high panicle branches whereas, L-77, L-46, Dilrosh, L-48, and L-20 displayed lowest panicle branches. Bas-370 and four other studied accessions contained C allele whereas, L-77 and 18 other investigated accessions had heterozygous (C and T) alleles in their promoter region. C-T allelic mutation was found in 3rd exon of the OsSPL14 gene. The sequence analysis of 12 accessions revealed a novel mutation (C-T) present ~2bp upstream and substitution of C-A allele. However, no significant correlation for novel mutation was found for tillering and panicle branches in studied rice accessions. Taken together present results suggested novel insight into the binding of miR156 to detected mutation found in 3rd exon of the OsSPL14 gene. Nevertheless, L-77, L-46, Dilrosh, L-48, and L-20 could be used as potential breeding resource for improving panicle architecture contributing yield improvement of rice crop., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

11. Combined application of zinc and silicon alleviates terminal drought stress in wheat by triggering morpho-physiological and antioxidants defense mechanisms.

Author

Sattar A, Wang X, Abbas T, Sher A, Ijaz M, Ul-Allah S, Irfan M, Butt M, Wahid MA, Cheema M, Fiaz S, Qayyum A, Ansari MJ, Alharbi SA, Wainwright M, Ahmad F, Xie K, and Zuan ATK

Subjects

Antioxidants metabolism, Chlorophyll metabolism, Droughts, Silicon administration & dosage, Stress, Physiological, Water metabolism, Zinc administration & dosage, Silicon metabolism, Triticum physiology, Zinc metabolism

Abstract

Wheat is an important global staple food crop; however, its productivity is severely hampered by changing climate. Erratic rain patterns cause terminal drought stress, which affect reproductive development and crop yield. This study investigates the potential and zinc (Zn) and silicon (Si) to ameliorate terminal drought stress in wheat and associated mechanisms. Two different drought stress levels, i.e., control [80% water holding capacity (WHC) was maintained] and terminal drought stress (40% WHC maintained from BBCH growth stage 49 to 83) combined with five foliar-applied Zn-Si combinations (i.e., control, water spray, 4 mM Zn, 40 mM Si, 4 mM Zn + 40 mM Si applied 7 days after the initiation of drought stress). Results revealed that application of Zn and Si improved chlorophyll and relative water contents under well-watered conditions and terminal drought stress. Foliar application of Si and Zn had significant effect on antioxidant defense mechanism, proline and soluble protein, which showed that application of Si and Zn ameliorated the effects of terminal drought stress mainly by regulating antioxidant defense mechanism, and production of proline and soluble proteins. Combined application of Zn and Si resulted in the highest improvement in growth and antioxidant defense. The application of Zn and Si improved yield and related traits, both under well-watered conditions and terminal drought stress. The highest yield and related traits were recorded for combined application of Zn and Si. For grain and biological yield differences among sole and combined Zn-Si application were statistically non-significant (p>0.05). In conclusion, combined application of Zn-Si ameliorated the adverse effects of terminal drought stress by improving yield through regulating antioxidant mechanism and production of proline and soluble proteins. Results provide valuable insights for further cross talk between Zn-Si regulatory pathways to enhance grain biofortification., Competing Interests: The authors have declared that no competing interests exist.

Published

2021