Growth Of Organisms Research Articles

Exploring the Impact of Escherichia coli TcpC, a Bacterial TIR Domain-Containing Protein, Using Planaria and Dictyostelium discoideum as Model Organisms.

Abstract An estimated 1.2 million individuals lose their lives each year due to antibiotic-resistant bacterial infections, surpassing the mortality caused by HIV/AIDS or malaria. Uropathogenic Escherichia coli (UPEC) is among the most common causative agents of urinary tract infections (UTIs). UPECs survive in hosts using various mechanisms, including by secreting a protein known as TcpC. TcpC is a Toll-like/interleukin-1 receptor (TIR) domain-containing protein that modifies mammalian innate immunity by inhibiting the host Toll-like receptor (TLR) response. We hypothesize that TcpC also affects the survival of UPECs in model systems, including the social amoeba Dictyostelium discoideum and planaria flatworms. To test this hypothesis, we are using mutant strains of the UPEC CFTO73 that have altered expression of TcpC to analyze the effects of TcpC on bacterial growth and virulence in these model organisms. Our initial tests with D. discoideum indicate that the presence of TcpC in UPEC strains may increase their resistance to grazing and phagocytosis by the social amoeba D. discoideum. We are currently testing the effects of TcpC on survival of UPEC strains in planaria. If TcpC affects survival of UPECs in these model systems, this may open new avenues for characterization of the molecular mechanisms used by bacterial TIR domains to evade mammalian innate immune cells.

Phosphate removal by acid-activated and chitosan-composite clayey soils

Phosphate is a vital nutrient for aquatic organism growth, but excessive levels can lead to eutrophication, with detrimental effects on receiving water bodies. Adsorption using clay soils can address phosphate release and has gained attention owing to its cost-efficiency and environmental friendliness. To overcome the limited phosphate adsorption capacity of clay soils due to surface charges, the combined effects of acid activation and composite formation with chitosan were investigated. Kaolin and bentonite were selected for acid activation, while chitosan varieties with low, medium, and high molecular weights were chosen for composite formation. Batch tests were individually conducted on acid-activated clay soils and composites of acid-activated clay soils with chitosan over 24 h, varying the initial phosphate concentrations. For acid activation, clay soils were treated with 6N hydrochloric acid, whereas composite formation was achieved via combination with each chitosan variant. Acid-activated kaolin and bentonite individually exhibited phosphate removal efficiencies ranging 99.8–79.8% and 97.1–47.2%, respectively. Among their respective composites, acid-activated kaolin with medium-molecular-weight chitosan and acid-activated bentonite with low-molecular-weight chitosan had the highest phosphate removal efficiencies. Therefore, in contrast to kaolin, acid activation or composite formation of acid-activated bentonite with chitosan can improve its phosphate removal efficiency.

Synthesis and application of gelatin-based controlled-release antibacterial films containing oregano essential oil/β-cyclodextrin microcapsules for chilling preservation of grass carp fillets

This work aimed to synthesize oregano essential oil/β-cyclodextrin microcapsules (OEO/β-CDs) and then prepare gelatin-based controlled-release antibacterial films with different OEO/β-CDs contents (0%–2%) for chilling preservation of grass carp fillets. The results of FTIR, XRD, DSC and accelerated release ratio showed that OEO was successfully encapsulated in OEO/β-CDs and its thermal stability was effectively improved. Moreover, at 2% of addition amount of OEO/β-CDs, the tensile strength of the films increased from 14.43 MPa to 18.72 MPa. In addition, the films showed significant antibacterial activity against Pseudomonas (61.52%), Aeromonas (62.87%), and Shewanella putrefaciens (66.67%). Preservation experiments showed that the films effectively prevented the increase of TVB-N, and TBA value of the refrigerated fillets and significantly suppressed the growth of spoilage organisms, thus extending the shelf life by 2–3 days. Therefore, the synthesized film has promising potential as an active packaging material for the preservation of grass carp.

Lipid transfers within the lower food web of western Arctic seas

Polar marine ecosystems are undergoing major transformations due to climate change. Alterations of the physical and chemical growth conditions for plankton are likely to propagate through the food web, potentially having major consequences for the animals that Inuit harvest for subsistence. These alterations can impact the nutritional qualities of plankton through physiological responses or indirectly via changes in the taxonomic composition of assemblages. This study focuses on lipids, which provide a vital source of energy in cold waters, and on essential fatty acids (EFA), such as omega-3 and omega-6 FA, which are necessary for the function, growth, and reproduction of organisms. To better understand how EFA propagate and accumulate in the lower food web, we compared the fatty acid composition of phytoplankton and copepods across a large portion of the western Arctic. The bulk lipid profiles of copepod assemblages were determined largely by their taxonomic composition, but specific fatty acid groups (e.g., omega-6 and saturated fatty acids) exhibited strong correlations with water properties (e.g., pH, salinity). A comparative analysis of specific fatty acids suggests that the animals accumulate eicosapentaenoic acid (EPA) but metabolize its precursors, although these processes were not measured directly. The proportions of EPA, docosahexaenoic acid, and specific omega-7 FA (e.g., 16:1ω7) were much higher in copepods than in phytoplankton, and a fatty acid diatom marker accounted for over 45% of the fatty acid pool in copepods. The positive relationship between proportions of this marker in copepods and phytoplankton implies that the fatty acid content of copepods is influenced primarily by recent feeding. These results underscore the importance of long-lived subsurface chlorophyll maxima for trophic transfers of EFA in the strongly stratified waters of the Pacific-influenced sector of the Arctic Ocean and question the paradigm that copepods rely principally on brief surface blooms to rapidly store lipids for the following winter.

GbyE: an integrated tool for genome widely association study and genome selection based on genetic by environmental interaction.

The growth and development of organism were dependent on the effect of genetic, environment, and their interaction. In recent decades, lots of candidate additive genetic markers and genes had been detected by using genome-widely association study (GWAS). However, restricted to computing power and practical tool, the interactive effect of markers and genes were not revealed clearly. And utilization of these interactive markers is difficult in the breeding and prediction, such as genome selection (GS). Through the Power-FDR curve, the GbyE algorithm can detect more significant genetic loci at different levels of genetic correlation and heritability, especially at low heritability levels. The additive effect of GbyE exhibits high significance on certain chromosomes, while the interactive effect detects more significant sites on other chromosomes, which were not detected in the first two parts. In prediction accuracy testing, in most cases of heritability and genetic correlation, the majority of prediction accuracy of GbyE is significantly higher than that of the mean method, regardless of whether the rrBLUP model or BGLR model is used for statistics. The GbyE algorithm improves the prediction accuracy of the three Bayesian models BRR, BayesA, and BayesLASSO using information from genetic by environmental interaction (G × E) and increases the prediction accuracy by 9.4%, 9.1%, and 11%, respectively, relative to the Mean value method. The GbyE algorithm is significantly superior to the mean method in the absence of a single environment, regardless of the combination of heritability and genetic correlation, especially in the case of high genetic correlation and heritability. Therefore, this study constructed a new genotype design model program (GbyE) for GWAS and GS using Kronecker product. which was able to clearly estimate the additive and interactive effects separately. The results showed that GbyE can provide higher statistical power for the GWAS and more prediction accuracy of the GS models. In addition, GbyE gives varying degrees of improvement of prediction accuracy in three Bayesian models (BRR, BayesA, and BayesCpi). Whatever the phenotype were missed in the single environment or multiple environments, the GbyE also makes better prediction for inference population set. This study helps us understand the interactive relationship between genomic and environment in the complex traits. The GbyE source code is available at the GitHub website ( https://github.com/liu-xinrui/GbyE ).

Effect of light intensity on the survival of European spiny lobster (Palinurus elephas) larvae reared in aquaculture system

Light plays a crucial role in the growth, development, and survival of aquatic organisms. To evaluate the survival of European spiny lobster (Palinurus elephas) larvae in relation to different light intensities (26, 359, and 910 lux, equivalent to 0.35, 4.74, and 12.29 μmol·m−2·s−1, respectively), this study monitored the survival rates of reared spiny lobster from the early instar phyllosoma stages to their metamorphosis into the puerulus stage (111 days after hatching) at the three light intensities. The newly hatched larvae were cultured in 65-L Kreisel tanks with 200 individuals each (three replicates per treatment, i.e., light intensity). Phyllosoma stages I to III larvae showed no significant differences in survival rates under different light intensities. However, light intensity did have a significant impact on the survival rates of phyllosoma stages IV and V as well as the metamorphosis of phyllosoma VI into puerulus. The highest survival rates were observed under high and medium light intensity conditions. At the end of the experiment, the highest mean survival rate for stage VI, the metamorphosis into the puerulus stage, was 42.0 ± 2.52 % under high light intensity. These survival rates for reared pueruli were 84 times higher than those achieved in previous studies. The present study results show promise for the successful implementation of commercial scale rearing protocols for European spiny lobster and have implications for the design of crustacean larvae culture systems.

Effects of psychogenic stress on oxidative stress and antioxidant capacity at different growth stages of rats: Experimental study.

This study examined the psychogenic stress (PS) effects on changes in oxidative stress and the antioxidant capacity of an organism at different growth stages. The experimental animals were male Wistar rats of five different ages from growth periods (GPs) to old age. The growth stages were randomly classified into control (C) and experimental (PS) groups. The PS was performed using restraint and water immersion once daily for 3 h for 4 weeks. Reactive oxygen metabolites (d-ROMs) and the biological antioxidant potential (BAP) were measured before and after the experiment. In addition, the liver and adrenal glands were removed, and the wet weight was measured. The d-ROM and BAP of all growth stages given PS increased significantly. The d-ROM in the C group without PS increased significantly in GPs while decreased significantly in old-aged rats. In addition, the BAP of the C group in GP and early adulthood were all significantly elevated. There were significant differences in organ weights between the C and PS groups at all growth stages. Oxidative stress and antioxidant capacity differed depending on the organism's developmental status and growth stage, and PS also showed different effects. In particular, the variability in oxidative stress was remarkable, suggesting that the effect of PS was more significant in the organism's immature organs.

Genome-wide identification of bHLH gene family and screening of candidate gene in response to salt stress in kiwifruit

As the second largest family of transcription factors in plants, bHLH is widely involved in the growth and development of organisms and their response to stress. In the past, there was no systematic division of this gene family in kiwifruit. In this study, we identified 206 AcbHLH genes, divided into 22 subfamilies, and analyzed chromosomal localization, physicochemical properties, conserved domains, and intron/exon composition. In addition, the repeat events of the AcbHLH gene in kiwifruit and the evolutionary relationship with Arabidopsis thaliana and Oryza sativa were further analyzed. We analyzed the expression levels of the AcbHLH genes under biotic and abiotic stresses (heat, low temperature, drought, and Bacillus anthracis infection). In addition, we also investigated the biological function of AcbHLH146 under salt stress using a VIGS-mediated gene silencing method. In the AcbHLH146-VIGS line, the content of H2O2 and O2- was lower and the damage was less. SOD, POD, and CAT enzyme activities are higher. These results suggest that AcbHLH146 may play a negative moderating role in the response of kiwifruit to salt stress. Our findings provide new insights into the potential role of AcbHLH146 under abiotic stress, and provide a theoretical basis for the molecular mechanism of Kiwifruit adaptation to salt stress.

The Bombyx mori singed Gene Is Involved in the High-Temperature Resistance of Silkworms.

Temperature is an important factor in the growth, development, survival, and reproduction of organisms. The high-temperature resistance mechanism of insects may be significant for use in the prevention and control of insect pests. The silkworm, Bombyx mori, is an important Lepidoptera model species for studies on pest control in agriculture and forestry. We identified a gene in B. mori, the B. mori singed (Bmsn) gene, which is involved in the high-temperature resistance of silkworms. Sn proteins are highly conserved among species in many taxonomic groups. The overexpression of the Bmsn gene promoted the proliferation of silkworm cells, reduced oxidation, and reduced the accumulation of reactive oxygen species under stress. Interfering with the Bmsn gene had the opposite result. We constructed a transgenic B. mori strain that overexpressed the Bmsn gene. The physiological traits of the transgenic strain were significantly improved, and it had stronger high-temperature resistance. The Bmsn gene is involved in the process by which fat bodies respond to high-temperature stress. These findings provide insights into the mechanism of high-temperature resistance of insects and offer a new perspective on agricultural and forestry pest control.

Toxicology and safety study of L-tryptophan and its impurities for use in swine.

L-tryptophan, an essential amino acid for physiological processes, metabolism, development, and growth of organisms, is widely utilized in animal nutrition and human health as a feed additive and nutritional supplement, respectively. Despite its known benefits, safety concerns have arisen due to an eosinophilia-myalgia syndrome (EMS) outbreak linked to L-tryptophan consumed by humans. Extensive research has established that the EMS outbreak was caused by an L-tryptophan product that contained certain impurities. Therefore, safety validations are imperative to endorse the use of L-tryptophan as a supplement or a feed additive. This study was conducted in tertiary hybrid [(Landrace × Yorkshire) × Duroc] pigs to assess general toxicity and potential risks for EMS-related symptoms associated with L-tryptophan used as a feed additive. Our investigation elucidated the relationship between L-tryptophan and EMS in swine. No mortalities or clinical signs were observed in any animals during the administration period, and the test substance did not induce toxic effects. Hematological analysis and histopathological examination revealed no changes in EMS-related parameters, such as eosinophil counts, lung lesions, skin lesions, or muscle atrophy. Furthermore, no test substance-related changes occurred in other general toxicological parameters. Through analyzing the tissues and organs of swine, most of the L-tryptophan impurities that may cause EMS were not retained. Based on these findings, we concluded that incorporating L-tryptophan and its impurities into the diet does not induce EMS in swine. Consequently, L-tryptophan may be used as a feed additive throughout all growth stages of swine without safety concerns.

Yak IGFBP3 promotes hepatocyte proliferation through PI3K-Akt signaling pathway

IGFBP3 (Insulin-like growth factor binding protein 3) constitutes a crucial constituent of the insulin-like growth factor (IGF), which are intimately associated with the organism's growth and development processes. Despite its significance, the precise function of IGFBP3 in yak liver development remains largely unexplored. In the present study, we systematically examined the expression profile of IGFBP3 in the liver tissues of yaks across various growth stages, elucidated its influence on the activity of yak hepatocytes, and probed its effects on murine liver development. A comparative analysis revealed that the expression of IGFBP3 was significantly higher in the liver tissue of 5-year-old yaks compared to their 15-month-old and 1-day-old counterparts (P < 0.01). To further validate its biological function, pET-28a-BgIGFBP3 prokaryotic expression vector was constructed. Upon exposing yak hepatocytes to varying concentrations of Bos grunniens (Bg) IGFBP3 protein, we observed augmented cellular activities and elevated colony formation rates. Moreover, our investigation revealed the upregulation of key genes within the PI3K-Akt signaling pathway, including ERBB2, IRS1, PIK3R1, AKT1, RAF1, MAP2K2, and MAPK3, in both yak hepatocyte cultures and murine models. These findings collectively indicate that BgIGFBP3 promotes the proliferation of yak hepatocytes and enhances murine liver development by modulating the PI3K-Akt signaling pathway. The functional relevance of BgIGFBP3 was substantiated through in vivo and in vitro experiments, thereby underscoring its potential as a regulatory factor in liver development processes.

Polydopamine Modified Carbon Nitride and PAMAM Assembled Electrochemical Immunosensor for Detection of Indole‐3‐Acetic Acid

AbstractIndole‐3‐acetic acid (IAA) assumes a pivotal role as a phytohormone of utmost importance, intricately orchestrating the nuanced processes associated with the growth and developmental trajectories of botanical organisms. In this study, we have designed and fabricated a label‐free electrochemical impedance immunosensor for the precise detection of IAA. The detection strategy predominantly relied upon polydopamine modified carbon nitride (C3N4) nanosheets (PCN) and polyamidoamine (PAMAM) dendrimer. Through the modification with PCN and PAMAM, the electrode has increased the active area and enhanced the immobilization capacity of antibodies for IAA. The immunosensor‘s ability to capture IAA was significantly improved by enhancing the immunoreaction between the antibody and antigen. This enhancement led to an increased response in the electrochemical behavior of the Fe(CN)63−/4− redox probe. The impedance immunosensor developed exhibits remarkable sensitivity, exceptional selectivity, and consistent performance in the detection of IAA. This assay method, with the potential to replace antibodies, could offer an alternative approach for detecting various phytohormones.

Dynamics of Body Component Composition Indicators in Males During Studying at the Military Medical University

The study of anthropometric indicators and body composition of various categories of the population makes it possible to monitor physical development, conduct health assessments and timely development of preventive measures. The purpose of the study is to evaluate the dynamics of indicators of the component composition of the body of military university cadets during the training period from 1st to 6th year. Material and methods. 387 male cadets (the same persons) were examined during the period of their studies in 1-6 courses. The component composition of the body was studied using bioimpedance measurements. Results. It has been shown that during the first two courses of study (persons 17-18 years old) there is an increase in muscle mass of the trunk by 13.8%, muscle mass of the upper extremities - by 11.4% and lower extremities - by 6.1%, which is explained by the presence intense physical activity. Moreover, during the first year of study, a slight increase in the fat component of the body is determined (5.4%). In the third and fourth years of study, there is a stabilization and slowdown in the growth of the formed muscle and fat masses of the trunk and limbs, characteristic of the transition period from adolescence to adulthood. These trends continued to increase throughout the 5th year of study, but the level of basal metabolism did not change significantly throughout the study. In the 6th year, in relation to the time of admission to university, a general increase in the muscle component of the torso was established by 17.2%, muscle mass of the upper extremities - by 15.8%, and lower extremities - by 9.6%. Over 6 years of study, the fat content in the torso increased by 8.2%, the fat mass of the upper and lower extremities - by 7.5% and 8.0%, respectively, and the level of visceral fat increased by 9.3%. The vital volume of the lungs increased by 12.2% compared to the beginning of the 1st course. Conclusion. The above transformations are obviously due to the continued growth of a healthy organism. Reduced adaptive changes during the training period can be corrected by increasing physical activity, diet and caloric intake.

MAP3K4 kinase action and dual role in cancer.

It is commonly known that the MAPK pathway is involved in translating environmental inputs, regulating downstream reactions, and maintaining the intrinsic dynamic balance. Numerous essential elements and regulatory processes are included in this pathway, which are essential to its functionality. Among these, MAP3K4, a member of the serine/threonine kinases family, plays vital roles throughout the organism's life cycle, including the regulation of apoptosis and autophagy. Moreover, MAP3K4 can interact with key partners like GADD45, which affects organism's growth and development. Notably, MAP3K4 functions as both a tumor promotor and suppressor, being activated by a variety of factors and triggering diverse downstream pathways that differently influence cancer progression. The aim of this study is to provide a brief overview of physiological functions of MAP3K4 and shed light on its contradictory roles in tumorigenesis.

Interactive effects between water temperature, microparticle compositions, and fiber types on the marine keystone species Americamysis bahia

Recently, there has been an increasing emphasis on examining the ecotoxicological effects of anthropogenic microparticles (MPs), especially microplastic particles, and related issues. Nevertheless, a notable deficiency exists in our understanding of the consequences on marine organisms, specifically in relation to microfibers and the combined influence of MPs and temperature.In this investigation, mysid shrimp (Americamysis bahia), an important species and prey item in estuarine and marine food webs, were subjected to four separate experimental trials involving fibers (cotton, nylon, polyester, hemp; 3 particles/ml; approximately 200 μm in length) or fragments (low-density Polyethylene: LDPE, polylactic acid: PLA, and their leachates; 5, 50, 200, 500 particles/ml; 1–20 μm). To consider the effects in the context of climate change, three different temperatures (22, 25, and 28 °C) were examined. Organismal growth and swimming behavior were measured following exposure to fragments and microfibers, and reactive oxygen species and particle uptake were investigated after microfiber exposure. To simulate the physical characteristics of MP exposure, such as microfibers obstructing the gills, we also assessed the post-fiber-exposure swimming behavior in an oxygen-depleted environment.Data revealed negligible fragment, but fiber exposure effects on growth. PLA leachate triggered higher activity at 25 °C and 28 °C; LDPE exposures led to decreased activity at 28 °C. Cotton exposures led to fewer behavioral differences compared to controls than other fiber types. The exposure to hemp fibers resulted in significant ROS increases at 28 °C. Microfibers were predominantly located within the gastric and upper gastrointestinal tract, suggesting extended periods of residence and the potential for obstructive phenomena over the longer term. The combination of increasing water temperatures, microplastic influx, and oxidative stress has the potential to pose risks to all components of marine and aquatic food webs.

Lactic Acid Bacteria of Marine Origin as a Tool for Successful Shellfish Farming and Adaptation to Climate Change Conditions.

Climate change, especially in the form of temperature increase and sea acidification, poses a serious challenge to the sustainability of aquaculture and shellfish farming. In this context, lactic acid bacteria (LAB) of marine origin have attracted attention due to their ability to improve water quality, stimulate the growth and immunity of organisms, and reduce the impact of stress caused by environmental changes. Through a review of relevant research, this paper summarizes previous knowledge on this group of bacteria, their application as protective probiotic cultures in mollusks, and also highlights their potential in reducing the negative impacts of climate change during shellfish farming. Furthermore, opportunities for further research and implementation of LAB as a sustainable and effective solution for adapting mariculture to changing climate conditions were identified.

CPPLS-MLP: a method for constructing cell-cell communication networks and identifying related highly variable genes based on single-cell sequencing and spatial transcriptomics data.

In the growth and development of multicellular organisms, the immune processes of the immune system and the maintenance of the organism's internal environment, cell communication plays a crucial role. It exerts a significant influence on regulating internal cellular states such as gene expression and cell functionality. Currently, the mainstream methods for studying intercellular communication are focused on exploring the ligand-receptor-transcription factor and ligand-receptor-subunit scales. However, there is relatively limited research on the association between intercellular communication and highly variable genes (HVGs). As some HVGs are closely related to cell communication, accurately identifying these HVGs can enhance the accuracy of constructing cell communication networks. The rapid development of single-cell sequencing (scRNA-seq) and spatial transcriptomics technologies provides a data foundation for exploring the relationship between intercellular communication and HVGs. Therefore, we propose CPPLS-MLP, which can identify HVGs closely related to intercellular communication and further analyze the impact of Multiple Input Multiple Output cellular communication on the differential expression of these HVGs. By comparing with the commonly used method CCPLS for constructing intercellular communication networks, we validated the superior performance of our method in identifying cell-type-specific HVGs and effectively analyzing the influence of neighboring cell types on HVG expression regulation. Source codes for the CPPLS_MLP R, python packages and the related scripts are available at 'CPPLS_MLP Github [https://github.com/wuzhenao/CPPLS-MLP]'.

Water Temperature Model: A Case Study in Alagoinhas-BA

In recent years, climate change has generated disturbances at both local and global scales, directly impacting the water temperature of rivers. Temperature fluctuations have become a common occurrence in river water, where after experiencing heating, the return to its natural temperature is gradual. Consequently, temperature changes affect various internal processes within rivers, including nutrient consumption, food availability, and dissolved oxygen concentration. These alterations subsequently impact the growth and distribution of aquatic organisms. This article focuses on the physical variables derived from a model characterized by limited computational complexity. The final structure of the model consists of a single ordinary differential equation, which is linearly dependent on air and water temperature, as well as flow rate. Additionally, to handle data sequences such as time series more efficiently than traditional Recurrent Neural Networks (RNNs), we employ a Long Short-Term Memory (LSTM) neural network.

Evaluation of Vit. D3 and Zn levels in patients with urinary tract infections

Background: Vitamin D, known for its immunoregulatory effects and antimicrobial properties, plays a crucial role in regulating inflammation and chemokine production. Zinc is influential for a healthy immune system and human health, influencing cell differentiation, proliferation, and apoptosis, which impact organism growth. Objective: Determine the serum zinc and vitamin D3 levels in UTI patients and controls to detect the role of vit. D3 and Zn in UTIs, and their levels in recurrent and non-recurrent infections. Materials and Methods: Samples of 60 urinary tract infection patients, distributed between 30 females and 30 males, were collected from Imam Hassan Al-Mujtaba Hospital for the period from December 2022 to April 2023. After collecting venous blood samples from patients and the controls, the serum was separated to measure the concentrations of vitamin D3 and zinc. The concentration of vitamin D3 was measured using the Cobas system, while the concentration of zinc was measured using a Mindray device. Results: UTI patients have lower serum zinc levels than the controls group, with the patient group having 83.0 mg/dL compared to the control group. Vitamin D3 was also low in the patients group compared to controls (10.50, 12.58 respectively). Conclusion: Vitamin D3 and zinc levels can influence UTI development, with patients having lower serum vit. D3 and zinc than the controls group, indicating a potential risk of UTI.

Diet overwhelms host growth in governing the ecological succession of gut microbiota in golden pompano (Trachinotus ovatus)

The assembly and succession of the gut microbiota are important events in animal growth and have a significant impact on the productivity of aquaculture organisms, which can be influenced by the environment, growth stages, and dietary changes. However, little is known about how the growth of aquaculture organisms and dietary differences during growth affect the assembly of the gut microbiota. In this study, we fed golden pompano (Trachinotus ovatus) a regular diet and a high-fat, high-protein diet, respectively. We then used bacterial 16 S rRNA gene sequencing to study the gut microbiota at different growth stages and under different dietary conditions. We found that the gut microbiota of T. ovatus changes in response to different dietary conditions. Moreover, this divergence does not change with the growth of the host. This suggests that dietary differences largely explained the gut microbiota succession, while growth stage had no significant influence on gut microbiota succession in T. ovatus from 30 to 120 dph. This study, which includes the effects of growth stage and diet, increases our understanding of how the gut microbiota of the T. ovatus assembles and colonizes and also provides new insights into the study of the gut microbiota of other aquaculture fish.