Penelitian ini bertujuan untuk mengevaluasi transmisi transgen PhGH dan performa ikan lele Afrika transgenik generasi ketiga (F3) yang meliputi pertumbuhan, rasio efisiensi konversi pakan, konsentrasi hormon pertumbuhan dan hormon IGF-I. Ikan lele transgenik F3 telah diproduksi dengan meyilangkan ikan lele transgenik F2 dengan non-transgenik. Deteksi transgen (PhGH) dilakukan menggunakan metode PCR. Analisis hormon pertumbuhan dan hormon insuline-like growth factor (IGF-I) menggunakan sampel serum darah dan metode enzyme linked immunosorbent assay (ELISA). Hasil penelitian menunjukkan bahwa ikan lele transgenik F3 yang digunakan pada pengujian ini terdeteksi positif membawa transgen dengan ukuran fragmen gen sebesar 1.500 bp. Transmisi transgen dari induk F2 ke F3 berkisar 0-75%. Pertumbuhan bobot populasi ikan lele transgenik F3 lebih tinggi 51,26% dibandingkan dengan ikan lele non-transgenik (P<0,05). Pertumbuhan bobot populasi ikan transgenik mencapai 484±60,3 g, sedangkan pertumbuhan bobot ikan non-transgenik 319,98±65,3 g. Nilai rasio konversi pakan ikan lele transgenik F3 sebesar 0,89 sedangkan non-transgenik 1,30. Hal ini menunjukkan bahwa efisiensi pakan ikan lele transgenik F3 lebih tinggi dibandingkan dengan ikan non-transgenik (P<0,05). Ikan lele transgenik mempunyai konsentrasi hormon pertumbuhan (5,67±2,65 ng/mL) yang lebih tinggi (P<0,05) jika dibandingkan dengan ikan lele non-transgenik (3,00±1,41 ng/mL). Ikan lele transgenik juga memiliki kandungan hormon IGF-I (6,63±0,11 ng/mL) lebih tinggi (P<0,05) dibandingkan dengan ikan lele non-transgenik (5,38±0,63 ng/mL). Tingginya konsentrasi hormon pertumbuhan dan hormon IGF-I dapat mewakili performa pertumbuhan dan efisiensi penggunaan pakan pada ikan lele transgenik.

The aim of this study was to determine the transmission of a transgene (PhGH) and to evaluate the performance of F3 transgenic African catfish, such as body weight, feed conversion ratio (FCR), growth hormone and IGF-I hormone profile. F3 transgenic were produced by mating F2 transgenic with non-transgenic fish. Detection of transgene was performed using PCR method. Analysis of the growth hormone and the insulin-like growth factor-I (IGF-I) hormone were conducted by enzyme linked immunosorbent assay (ELISA) method using serum samples. The results showed that the transgenic catfish F3 was positive carrying the transgene 1.500 bp. Transgene transmission from F2 to F3 ranged zero to 75%. The performance of F3 transgenic African catfish was significantly better 51.26% than that the non-transgenic (P<0.05). The body weight of transgenic population (484±255.25 g) was higher than that non-transgenic (319.98±165.27 g). FCR of transgenic fish (0.89) was lower than that non-transgenic (1.30). The growth hormone level of transgenic (5.67±2.65 ng/mL) was higher than that non-transgenic (3.00±1.41 ng/mL), IGF-I hormone level of F3 transgenic (6.63±0.11 ng/mL) was also higher than that non-transgenic (5.38±0.63 ng/mL). High level of growth hormone and IGF-I hormone represented both growth performance and efficiency of feed utilization of transgenic African catfish.