Your search keyword '"Gokulan, C. G."' showing total 9 results

1. Multiomics-assisted characterization of rice-Yellow Stem Borer interaction provides genomic and mechanistic insights into stem borer resistance in rice

Author

Gokulan, C. G., Bangale, Umakanth, Balija, Vishalakshi, Ballichatla, Suneel, Potupureddi, Gopi, Rao, Deepti, Varma, Prashanth, Magar, Nakul, Jallipalli, Karteek, Manthri, Sravan, Padmakumari, A. P., Laha, Gouri S., Rao, L. V. Subba, Barbadikar, Kalyani M., Raman, Meenakshi Sundaram, Patel, Hitendra K., Maganti, Sheshu Madhav, and Sonti, Ramesh V.

Published

2024

2. DRR Dhan 58, a Seedling Stage Salinity Tolerant NIL of Improved Samba Mahsuri Shows Superior Performance in Multi-location Trials

Author

Rekha, G., Abhilash Kumar, V., Gokulan, C. G., Koushik, M. B. V. N., Laxmi Prasanna, B., Kulkarni, Swapnil, Aleena, D., Harika, G., Hajira, S. K., Pranathi, K., Punniakoti, E., Kale, R. R., Dilip Kumar, T., Ayyappa, D., Anila, M., Sinha, Pragya, Manohara, K. K., Padmavathi, G., Subba Rao, L. V., Laha, G. S., Srinivas Prasad, M. S., Fiyaz, R. A., Suneetha, K., Balachandran, S. M., Patel, Hitendra Kumar, Sonti, Ramesh V., Senguttuvel, P., and Sundaram, R. M.

Published

2022

3. Mutation resource of Samba Mahsuri revealed the presence of high extent of variations among key traits for rice improvement

Author

Gopi Potupureddi, Vishalakshi Balija, Suneel Ballichatla, Gokulan C. G., Komal Awalellu, Swathi Lekkala, Karteek Jallipalli, Gayathri M. G., Ershad Mohammad, Milton M, Srikanth Arutla, Rajender Burka, Laha Gouri Shankar, Padmakumari Ayyangari Phani, SubbaRao Lella Venkata, Sundaram Raman Meenakshi, Viraktamath B. C., Ravindra Babu Vemuri, Kranthi Brahma, Raju Madnala, Hitendra Kumar Patel, Ramesh Venkata Sonti, and Maganti Sheshu Madhav

Subjects

Medicine, Science

Abstract

To create novel variants for morphological, physiological, and biotic stress tolerance traits, induced mutations were created using Ethyl Methane Sulphonate (EMS) in the background of Samba Mahsuri (BPT 5204), a popular and mega rice variety of India. A population derived from 10, 500 M1 plants and their descendants were phenotyped for a wide range of traits leading to the identification of 124 mutants having variations in key agro-morphological traits, and 106 mutants exhibiting variation for physiological traits. Higher yield is the ultimate goal of crop improvement and we identified 574 mutants having higher yield compared to wild type by having better yield attributing traits. Further, a total of 50 mutants showed better panicle exertion phenotypes as compared to Samba Mahsuri leading to enhancement of yield. Upon rigorous screening for three major biotic stresses, 8 mutants showed enhanced tolerance for yellow stem borer (YSB), and 13 different mutants each showed enhanced tolerance for sheath blight (ShB) and bacterial leaf blight (BLB), respectively. In addition, screening at multiple locations that have diverse field isolates identified 3, 3, and 5 lines for tolerance to ShB, YSB and BLB, respectively. On the whole, 1231 desired mutant lines identified at M2 were forwarded to an advanced generation (M5). PCR based allele mining indicated that the BLB tolerant mutants have a different allele than the reported alleles for well-known genes affecting bacterial blight resistance. Whole genome re-sequencing revealed substantial variation in comparison to Samba Mahsuri. The lines showing enhanced tolerance to important biotic stresses (YSB, ShB and BLB) as well as several economically important traits are unique genetic resources which can be utilized for the identification of novel genes/alleles for different traits. The lines which have better agronomic features can be used as pre-breeding lines. The entire mutant population is maintained as a national resource for genetic improvement of the rice crop.

Published

2021

4. Fine mapping and sequence analysis reveal a promising candidate gene encoding a novel NB-ARC domain derived from wild rice (Oryza officinalis) that confers bacterial blight resistance.

Author

Sinha, Pragya, Kumar, T. Dilip, Hajira, Sk, Solanki, Manish, Gokulan, C. G., Das, Ayyappa, Miriyala, Anila, Gonuguntala, Rekha, Elumalai, Punniakoti, Kousik, M. B. V. N, Masthani, S. K., Kumboju, Chaitra, Arra, Yugander, Laha, G. S., Chirravuri, N. Neerja, Patel, Hitendra Kumar, Ghazi, Irfan Ahmad, Kim, Sung-Ryul, Jena, Kshirod K., and Hanumanth, Surekha Rani

Abstract

Bacterial blight disease of rice caused by Xanthomonas oryzae pv. oryzae (Xoo) is one of the most serious constraints in rice production. The most sustainable strategy to combat the disease is the deployment of host plant resistance. Earlier, we identified an introgression line, IR 75084-15-3-B-B, derived from Oryza officinalis possessing broad-spectrum resistance against Xoo. In order to understand the inheritance of resistance in the O. officinalis accession and identify genomic region(s) associated with resistance, a recombinant inbred line (RIL) mapping population was developed from the cross Samba Mahsuri (susceptible to bacterial blight) × IR 75084-15-3-B-B (resistant to bacterial blight). The F2 population derived from the cross segregated in a phenotypic ratio of 3: 1 (resistant susceptible) implying that resistance in IR 75084-15-3-B-B is controlled by a single dominant gene/quantitative trait locus (QTL). In the F7 generation, a set of 47 homozygous resistant lines and 47 homozygous susceptible lines was used to study the association between phenotypic data obtained through screening with Xoo and genotypic data obtained through analysis of 7K rice single-nucleotide polymorphism (SNP) chip. Through composite interval mapping, a major locus was detected in the midst of two flanking SNP markers, viz., Chr11.27817978 and Chr11.27994133, on chromosome 11L with a logarithm of the odds (LOD) score of 10.21 and 35.93% of phenotypic variation, and the locus has been named Xa48t. In silico search in the genomic region between the two markers flanking Xa48t identified 10 putatively expressed genes located in the region of interest. The quantitative expression and DNA sequence analysis of these genes from contrasting parents identified the Os11g0687900 encoding an NB-ARC domain-containing protein as the most promising gene associated with resistance. Interestingly, a 16-bp insertion was noticed in the untranslated region (UTR) of the gene in the resistant parent, IR 75084-15-3-B-B, which was absent in Samba Mahsuri. The association of Os11g0687900 with resistance phenotype was further established by sequence-based DNA marker analysis in the RIL population. A co-segregating PCR-based INDEL marker, Marker_Xa48, has been developed for use in the marker-assisted breeding of Xa48t. [ABSTRACT FROM AUTHOR]

Published

2023

5. Suppression of XopQ–XopX‐induced immune responses of rice by the type III effector XopG.

Author

Deb, Sohini, Gokulan, C. G., Nathawat, Rajkanwar, Patel, Hitendra K., and Sonti, Ramesh V.

Subjects

*IMMUNOSUPPRESSION, *IMMUNE response, *HORIZONTAL gene transfer, *XANTHOMONAS oryzae, *RICE

Abstract

Effectors that suppress effector‐triggered immunity (ETI) are an essential part of the arms race in the co‐evolution of bacterial pathogens and their host plants. Xanthomonas oryzae pv. oryzae uses multiple type III secretion system (T3SS) secreted effectors such as XopU, XopV, XopP, XopG, and AvrBs2 to suppress rice immune responses that are induced by the interaction of two other effectors, XopQ and XopX. Here we show that each of these five suppressors can interact individually with both XopQ and XopX. One of the suppressors, XopG, is a predicted metallopeptidase that appears to have been introduced into X. oryzae pv. oryzae by horizontal gene transfer. XopQ and XopX interact with each other in the nucleus while interaction with XopG sequesters them in the cytoplasm. The XopG E76A and XopG E85A mutants are defective in interaction with XopQ and XopX, and are also defective in suppression of XopQ–XopX‐mediated immune responses. Both mutations individually affect the virulence‐promoting ability of XopG. These results indicate that XopG is important for X. oryzae pv. oryzae virulence and provide insights into the mechanisms by which this protein suppresses ETI in rice. [ABSTRACT FROM AUTHOR]

Published

2022

6. Arms and ammunitions: effectors at the interface of rice and it's pathogens and pests.

Author

Deb, Sohini, Madhavan, Vishnu Narayanan, Gokulan, C. G., Patel, Hitendra K., and Sonti, Ramesh V.

Subjects

PESTS, CROP yields, RICE, PLANT proteins, AMMUNITION

Abstract

The plant immune system has evolved to resist attack by pathogens and pests. However, successful phytopathogens deliver effector proteins into plant cells where they hijack the host cellular machinery to suppress the plant immune responses and promote infection. This manipulation of the host cellular pathways is done by the pathogen using various enzymatic activities, protein- DNA or protein- protein interactions. Rice is one the major economically important crops and its yield is affected by several pathogens and pests. In this review, we summarize the various effectors at the plant- pathogen/ pest interface for the major pathogens and pests of rice, specifically, on the mode of action and target genes of the effector proteins. We then compare this across the major rice pathogens and pests in a bid to understand probable conserved pathways which are under attack from pathogens and pests in rice. This analysis highlights conserved patterns of effector action, as well as unique host pathways targeted by the pathogens and pests. [ABSTRACT FROM AUTHOR]

Published

2021

7. Temporal stability and detection sensitivity of the dry swab-based diagnosis of SARS-CoV-2.

Author

Gokulan, C G, Kiran, Uday, Kuncha, Santosh Kumar, and Mishra, Rakesh K

Subjects

*SARS-CoV-2, *DIAGNOSIS, *COVID-19, *REVERSE transcriptase polymerase chain reaction, *VIRAL transmission

Abstract

The rapid spread and evolution of various strains of SARS-CoV-2, the virus responsible for COVID-19, continues to challenge the disease controlling measures globally. Alarming concern is, the number of second wave infections surpassed the first wave and the onset of severe symptoms manifesting rapidly. In this scenario, testing of maximum population in less time and minimum cost with existing diagnostic amenities is the only possible way to control the spread of the virus. The previously described RNA extraction-free methods using dry swab have been shown to be advantageous in these critical times by different studies. In this work, we show the temporal stability and performance of the dry swab viral detection method at two different temperatures. Contrived dry swabs holding serially diluted SARS-CoV-2 strains A2a and A3i at 25°C (room temperature; RT) and 4°C were subjected to direct RT-PCR and compared with standard VTM-RNA based method. The results clearly indicate that dry swab method of RNA detection is as efficient as VTM-RNA-based method in both strains, when checked for up to 72 h. The lesser CT values of dry swab samples in comparison to that of the VTM-RNA samples suggest better sensitivity of the method within 48 h of time. The results collectively suggest that dry swab samples are stable at RT for 24 h and the detection of SARS-CoV-2 RNA by RT-PCR do not show variance from VTM-RNA. This extraction free, direct RT-PCR method holds phenomenal standing in the present life-threatening circumstances due to SARS-CoV-2. [ABSTRACT FROM AUTHOR]

Published

2021

8. Easing diagnosis and pushing the detection limits of SARS-CoV-2.

Author

Kiran, Uday, Gokulan, C G, Kuncha, Santosh Kumar, Vedagiri, Dhiviya, Chander, Bingi Thrilok, Sekhar, Aedula Vinaya, Dontamala, Suchitra, Reddy, Arakatla Lohith, Tallapaka, Karthik Bharadwaj, Mishra, Rakesh K, and Harshan, Krishnan Harinivas

Subjects

*DETECTION limit, *SARS-CoV-2, *DIAGNOSIS, *REVERSE transcriptase polymerase chain reaction, *NUCLEIC acid isolation methods

Abstract

Rigorous testing is the way forward to fight the coronavirus disease 2019 pandemic. Here we show that the currently used and most reliable reverse transcription-polymerase chain reaction-based severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) procedure can be further simplified to make it faster, safer, and economical by eliminating the RNA isolation step. The modified method is not only fast and convenient but also at par with the traditional method in terms of accuracy, and therefore can be used for mass screening. Our method takes about half the time and is cheaper by ∼40% compared to the currently used method. We also provide a variant of the new method that increases the efficiency of detection by ∼30% compared to the existing procedure. Taken together, we demonstrate a more effective and reliable method of SARS-CoV-2 detection. [ABSTRACT FROM AUTHOR]

Published

2020

9. Surveillance of SARS-CoV-2 genome fragment in urban, peri-urban and rural water bodies: a temporal and comparative analysis.

Author

Hemalatha, Manupati, Tharak, Athmakuri, Kopperi, Harishankar, Kiran, Uday, Gokulan, C. G., Mishra, Rakesh K., and Mohan, S. Venkata

Subjects

*BODIES of water, *URBAN lakes, *SARS-CoV-2, *COVID-19, *VIRAL variation

Abstract

As a result of the SARS-CoV-2 pandemic, water bodies connected to anthropogenic activities may likely reveal the presence of viral genetic material. Urban, periurban and rural water bodies in and around Hyderabad, Telangana, India, were monitored for the presence of SARS-CoV-2 gene fragments during the first and second wave of COVID-19 infection. The SARS-CoV-2 genes were not detected in peri-urban and rural lakes, whereas urban lakes having direct functional attributes from domestic activity showed prevalence. Distinct variability in viral load observed among five water bodies was in concordance with human activity in the catchment area. High viral load was observed during the peaks of the first and second waves, specifically in urban lakes. [ABSTRACT FROM AUTHOR]

Published

2022