BIO Web of Conferences (Jan 2024)

Decreased Recombination Frequency in Lead Contaminated Drosophila melanogaster

  • Fauzi Ahmad,
  • Zubaidah Siti,
  • Zahrah Natasya Adiba,
  • Kharomah Sinta,
  • Ramadhan Muhamad Justitia,
  • Choirunisa Nindiana,
  • Maghfiroh Hidayati,
  • Buroidah Hikmah,
  • Hayuana Wachidah,
  • Agustin Maya,
  • Fahmi M. Iqbal Najib,
  • Setiawan Deny

DOI
https://doi.org/10.1051/bioconf/202411701047
Journal volume & issue
Vol. 117
p. 01047

Abstract

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Recombination frequency through testcross involving Drosophila melanogaster can be used as relevant data in assessing the effect of certain substances on organisms. This study aimed to analyze the effect of lead-contaminated culture media on the percentage of recombination events. D. melanogaster was selected as the model organism while crossing over was selected as the observed recombination event. Lead levels in each treatment were 0, 0.05, 0.075, and 0.1 grams. Crossing over data was collected by calculating the frequency of recombinant-type strains from testcross results involving wildtype strains and vestigial black double mutants. Successively, the recombinant frequencies in the 0-, 0.05-, 0.075-, and 0.1-gram lead groups were 32.40, 14.65, 0, and 0%. The results of the hypothesis test indicated that lead contamination had a significant effect on reducing the recombination frequency. Therefore, lead may negatively impact the molecular aspects that control recombination events. Because recombination is regulated by genes and involves various proteins, a decrease in recombination frequency indicates that lead has a negative impact on genes or proteins during gametogenesis.