Third International Conference “Genetically modified organism: the history, achievements, social and environmental risks”

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Abstract

From October 3 to October 5, 2023, the Third International Conference “Genetically modified organism: the history, achievements, social and environmental risks” was held at St. Petersburg State University as part of the implementation of the Program for the creation and development of a world-class Scientific Center “Agricultural Technologies for the Future. ”This issue is dedicated to the 300th anniversary of St. Petersburg State University and presents materials from selected conference reports.

About the authors

Tatiana V. Matveeva

Saint Petersburg State University; All-Russian Research Institute of Plant Protection

Author for correspondence.
Email: radishlet@gmail.com
ORCID iD: 0000-0001-8569-6665
SPIN-code: 3877-6598
Scopus Author ID: 7006494611

Dr. Sci. (Biology), Professor, department of genetics and biotechnology

Russian Federation, 7–9 Universitetskaya emb., Saint Petersburg, 199034; Saint Petersburg

References

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  2. Lutova LA, Dodueva IE. Basic research in the developmental genetics on the model of tumor growth in higher plants. Ecological genetics. 2023;21(S):5–6. EDN: TEZPVU doi: 10.17816/ecogen568363
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  4. Artemiuk AM, Tvorogova VE, Lutova LA. Development of a system for the formation of transgenic somatic embryos in the liquid medium in Medicago truncatula. Ecological genetics. 2023;21(S):9. EDN: IQLATQ doi: 10.17816/ecogen568297
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  6. Efremova EP, Tvorogova VE, Lutova LA. The MtWOX genes in the regulation of Medicago truncatula somatic embryogenesis. Ecological genetics. 2023;21(S):11. EDN: CECSAJ doi: 10.17816/ecogen568389
  7. Kiseleva AS, Matveenko AG, Tvorogova VE, Lutova LA. The screening vector system of morphogenic regulators in Fabaceae. Ecological genetics. 2023;21(S):12–13. EDN: CIJWMG doi: 10.17816/ecogen568518
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  17. Kiryushkin AS, Ilina EL, Demchenko KN. Study of functional features of plant root systems using CRISPR/Cas-mediated genome editing. Ecological genetics. 2023;21(S):28–29. EDN: ELXALM doi: 10.17816/ecogen568351
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  22. Cheryatova YSu, Yembaturova EYu. Transgenic medicinal plants as producers of bioactive substances. Ecological genetics. 2023;21(S):41–42. EDN: CKLJNH doi: 10.17816/ecogen567947
  23. Okulova ES, Burlakovskiy MS, Padkina MV, Lutova LA. Obtaining of transgenic barrelclover plants (Medicago truncatula) producing chicken interferon gamma for veterinary use. Ecological genetics. 2023;21(S):43–44. EDN: CQQYIO doi: 10.17816/ecogen567940
  24. Zelinsky AA, Rubel AA, Ryabinina MV. Identifying novel amyloid candidates using bioinformatics algorithms and a yeast model approach. Ecological genetics. 2023;21(S):45. EDN: TOHHXF doi: 10.17816/ecogen568129
  25. Kaushik P, Meenakshi S, Anil K. Bioengineering eggplants: a deep dive into SmHQT and phenolic acid biosynthesis. Ecological genetics. 2023;21(S):34–35. EDN: HXFVOF doi: 10.17816/ecogen568585
  26. Meenakshi S, Delta A, Kaushik P. Genetic enhancement of Datura metel for optimized silver nanoparticle synthesis. Ecological genetics. 2023;21(S):36–37. EDN: FZTMAB doi: 10.17816/ecogen568587
  27. Dolgov SV. Bioengineering of horticultural crops in Russia and in the world. Ecological genetics. 2023;21(S):46. EDN: IKDROI doi: 10.17816/ecogen568614
  28. Baranov DY, Dolgov SV, Timerbaev VR. Knockout of the tomato translational elongation factor using CRISPR-Cas9 technology. Ecological genetics. 2023;21(S):47. EDN: ZKPLVT doi: 10.17816/ecogen568327
  29. Elkonin LA, Gerashchenkov GA, Borisenko NV, et al. SITE-directed mutagenesis for producing grain sorgum mutants with improved kafirine digestibility. Ecological genetics. 2023;21(S):48–49. EDN: ROHKMO doi: 10.17816/ecogen567897
  30. Lebedeva MA, Dobychkina DA, Kochetkova LA, Lutova LA. Overexpression of the MtCLE35 gene in transgenic Medicago truncatula plants inhibits nodulation at early stages of symbiosis development. Ecological genetics. 2023;21(S):50–51. EDN: UKVFAZ doi: 10.17816/ecogen568451
  31. Ivanov AA, Burlakov AV, Golubeva TS. Approaches for the protection of Solanum tuberosum from late blight through the regulation of inf1 and inf4 elicitin genes. Ecological genetics. 2023;21(S):52. EDN: HIEKXI doi: 10.17816/ecogen568381
  32. Kochetkova LA, Lebedeva MA, Lutova LA. Putative molecular pathways of autoregulation of nodulation activated by CLE peptides in pea. Ecological genetics. 2023;21(S):53. EDN: EPMBLK doi: 10.17816/ecogen568446
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  36. Bogomaz OD, Bemova VD, Matveeva TV. Natural GMOs inside the genus Arachis L. Ecological genetics. 2023;21(S):59–60. EDN: XGMZOD doi: 10.17816/ecogen568618
  37. Zhidkin RR, Zhurbenko PM, Matveeva TV. Distribution of the rolB/C-like natural transgene in representatives of the genus Vaccinium L. Ecological genetics. 2023;21(S):61–62. EDN: CUDSSM doi: 10.17816/ecogen567934
  38. Mikhaylova EV. Transgene-free genome editing of plants. Ecological genetics. 2023;21(S):63. EDN: DJHBID doi: 10.17816/ecogen567964
  39. Sokornova SV, Mandrik-Litvinkovich MN, Matveeva TV. Characteristics of root endophytic fungi communities associated with genetically modified plants. Ecological genetics. 2023;21(S):64–65. EDN: REYEMY doi: 10.17816/ecogen568501
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  42. Shaposhnikov AD, Matveeva TV. New naturally transgenic crops. Ecological genetics. 2023;21(S):70. EDN: WPHWAB doi: 10.17816/ecogen568608
  43. Himmel M, Malygina AA, Dukhinova MS. Teaching interdisciplinary courses on responsible conduct in the life sciences — implications for biorisk assessments of GMOs. Ecological genetics. 2023;21(S):71–72. EDN: BNYJMT doi: 10.17816/ecogen568584
  44. Nasyrova FY, Barotov SS, Abdukholiqova FA. GMOs policy and research in Tajikistan. Ecological genetics. 2023;21(S):73–74. EDN: SJNXNA doi: 10.17816/ecogen568495
  45. Barotov SS, Nasyrova FY, Abdukholiqova FA. Identification of genetically modified crops in Tajikistan. Ecological genetics. 2023;21(S):75–76. EDN: OFZNBC doi: 10.17816/ecogen568487
  46. Khusnutdinov EA, Panfilova MA, Terekhov MP, Mikhaylova EV. CRISPR/Cas editing of a CPC gene in Arabidopsis thaliana. Ecological genetics. 2024;22(1):13–21. doi: 10.17816/ecogen624373
  47. Timina O, Timin O, Stepanova A. Biochemical characterisation of transformed roots of Pisum sativum L. subsp. sativum var. sativum with modified leaf morphotype. Ecological genetics. 2024; 22(1):23–32. doi: 10.17816/ecogen622926
  48. Kantsurova E, Kozlov NV, Dolgikh ЕА Development of approaches for genome editing of pea plants using CRISPR/Cas9 prime-editing technique. Ecological genetics. 2024;22(1):63–73. doi: 10.17816/ecogen623140
  49. Okulova EC, Burlakovsky MS, Lutova LA. PCR-based “genome walk” methods. Ecological genetics. 2024;22(1):75–103. doi: 10.17816/ecogen624820
  50. Kuznetsova KA, Dodueva IE, Lutova LA. The homeodomain of the Raphanus sativus transcription factor WOX4 binds to the promoter of the cytokinin biosynthesis gene LOG3. Ecological genetics. 2024;22(1):33–45. doi: 10.17816/ecogen624893
  51. Virolainen PA, Chekunova EM. Transgenesis of microalgae Chlamydomonas reinhardtii: current approaches. Ecological genetics. 2024;22(1):47–62. doi: 10.17816/ecogen624418

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