1. This study was carried out to investigate the effects of liquidambar essential oils (LEO) isolated from Turkish sweet gum (Liquidambar orientalis Mill.) leaves on growth performance, carcass, edible inner organs (EIO), gastrointestinal traits (gut), some blood metabolites and jejunum microbiota in broilers. 2. A total of 375 one-d-old male broilers (Ross 308) were randomly allocated to 5 treatments with 5 pens with 15 birds. The birds were fed on diets without antibiotics (CONT), with antibiotic (50 mg per kg, AB), with LEOs at 0.0405 (0.04LEO), 0.0811 (0.08LEO) or 0.1622 (0.16LEO) g/kg feed up to 42 d of age. The levels of LEOs included to diets were determined according to in vitro antimicrobial activity. 3. From d 1 to 42, the 0.08LEO treatment had higher live weight gain (LWG) compared to others. The 0.08LEO treatment increased feed intake (FI) compared to the CONT, AB and 0.04LEO. However, the feed conversion ratio (FCR) of these birds was lower than those in the AB and 0.16LEO treatments. From 1 to 42 d of age for LWG, the effects were quadratic and cubic, while those for FI and FCR were cubic and quadratic, respectively. Birds that fed 0.08LEO and AB diets had higher and lower carcass weights (CW) than those that fed other diets. The effect of LEO levels was cubic on the CW. The 0.08LEO and 0.16LEO decreased abdominal fat (AF) weight compared to the AB. The blood cholesterol decreased by the 0.04LEO and 0.08LEO treatments compared to the CONT. For the blood cholesterol, the effects of LEO levels were cubic. The 0.08LEO treatments decreased Escherichia coli counts in jejunum compared to the CONT and 0.16LEO. 4. Feeding a diet with LEO at 0.0811 g/kg might increase the LWG, FI and weights of carcass and AF, whereas it might decrease blood cholesterol and E. coli counts without affecting blood high-density lipoprotein, low-density lipoprotein, triglyceride, glucose, aspartate transaminase and alanine transaminase concentrations.
In the current study, glutathione reductase was purified from Scorpion fish (
Scorpaena porcus
) liver tissue and the effects of heavy metal ions on the enzyme activity were determined. The purification process consisted of three stages; preparation of the homogenate, ammonium sulphate precipitation and affinity chromatography purification. At the end of these steps, the enzyme was purified 25.9-fold with a specific activity of 10.479 EU/mg and a yield of 28.3%. The optimum pH was found to be 6.5, optimum substrate concentration was 2 mM NADPH and optimum buffer was 300 mM KH
2
PO
4.
After purification, inhibition effects of Mn
+2
, Cd
+2
, Ni
+2
, and Cr
3+
, as heavy metal ions were investigated. IC
50
values of the heavy metals were calculated as 2.4 µM, 30 µM, 135 µM and 206 µM, respectively.
Glutathione S-Transferase (GST) enzyme is abundant in mammals, insects, sh and microorganisms, as well as in various tissues of these species, particularly in tissues exposed to xenobiotics from the environment. As a result, the enzyme execute detoxifying function by scavenging a diverse range of xenobiotics, such as chemotherapeutic medicines, environmental carcinogens, and endogenous compounds. In this study, GST enzyme was puri ed from mallow (Malva slyvestris L.) seed for the rst time and the kinetic parameters were determined. The optimum ionic intensity was found in 400 mM Tris-Buffer, optimum pH: 7.0, and optimum substrate concentration was determined as 0.2 mM. One of the biggest reasons for deterioration of ecological balance in nature is heavy metal accumulation in soil, air and water which becomes a major threat to the vital activities of living things. In this study, the inhibitory effects of Fe + 3 , Cd + 2 , Ag + and Zn + 2 heavy metals, which are common in nature, on the Glutathione S-Transferase enzyme puri ed from mallow seeds were investigated. Each heavy metal showed low micromolar inhibitory effects on enzyme activity. I 50 values of the metals were calculated as 0.369, 60.93, 74.602 and 178.22 µM, respectively.
Glutathione S-Transferase (GST) enzyme is abundant in mammals, insects, fish and microorganisms, as well as in various tissues of these species, particularly in tissues exposed to xenobiotics from the environment. As a result, the enzyme execute detoxifying function by scavenging a diverse range of xenobiotics, such as chemotherapeutic medicines, environmental carcinogens, and endogenous compounds. In this study, GST enzyme was purified from mallow (Malva slyvestris L.) seed for the first time and the kinetic parameters were determined. The optimum ionic intensity was found in 400 mM Tris-Buffer, optimum pH: 7.0, and optimum substrate concentration was determined as 0.2 mM. One of the biggest reasons for deterioration of ecological balance in nature is heavy metal accumulation in soil, air and water which becomes a major threat to the vital activities of living things. In this study, the inhibitory effects of Fe+ 3, Cd+ 2, Ag+ and Zn+ 2 heavy metals, which are common in nature, on the Glutathione S-Transferase enzyme purified from mallow seeds were investigated. Each heavy metal showed low micromolar inhibitory effects on enzyme activity. I50 values of the metals were calculated as 0.369, 60.93, 74.602 and 178.22 µM, respectively.
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