Growth, Survival, and Body Composition of Transgenic Common Carp Cyprinus carpio 3rd Generation Expressing Tilapia Growth Hormone cDNA

Kurdianto,; Ali, Alimuddin; Faridah, Nurly; Yoshizaki, Goro; Nuryati, Sri; Setiawati, Mia

doi:10.1016/j.hjb.2016.12.002

Cited by 12 publications

(8 citation statements)

References 30 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Transgenic carp fish with growth reaches three times its normal size because it has a gene from growth hormone of rainbow trout that was transferred directly into carp fish eggs [145][146][147][148]. Similarly, other studies have produced similar results, such as in red sea bream and Atlantic salmon which were also equally inserted by OPAFPcsGH gene growth hormone.…”

Section: Engineering Of Aquaculture Biotamentioning

confidence: 98%

“…The fish was after inserted with a mutagenic mutant vector, then the DNA vector was removed and inserted into the indicator bacterium that could calculate the mutant gene. Transgenic fish become durable and not quickly rot in storage after transplanted tomato genes [147]. But it could be otherwise if the application was intended for the world of agriculture, the fish genes that live in cold regions could be moved into the tomato to reduce the damage caused by freezing.…”

Section: Engineering Of Aquaculture Biotamentioning

confidence: 99%

See 1 more Smart Citation

The Genetic Research Methods and its Role in Aquaculture on Indonesia

L¹

2018

IJOAC

View full text Add to dashboard Cite

Successful development of aquaculture is largely determined by the seed supply of both the quality and quantity of the seed. Seed quality is influenced by the quality of the mother (genetic factors) and environmental factors (water quality, food, and disease). Improved parent quality through the improvement of both qualitative and quantitative genetic traits that can be done through the selection of traits or characteristics of prospective mothers, as well as avoiding the occurrence of inbreeding that causes heritabilities decline. The purpose of writing to review the results of genetic studies that have been applied in the field of aquaculture in Indonesia. In this article, the study included the following: basic genetic concepts and theories, genetic research methods, and their roles and functions in the field of aquaculture.

show abstract

Section: Engineering Of Aquaculture Biotamentioning

confidence: 98%

Section: Engineering Of Aquaculture Biotamentioning

confidence: 99%

The Genetic Research Methods and its Role in Aquaculture on Indonesia

L¹

2018

IJOAC

View full text Add to dashboard Cite

show abstract

“…The generation of transgenic food fish may represent a method to meet future food demands. Over the past decades, transgenic technology has emerged as a one of the most potential transforming technologies (Pawar et al, 2016; Kurdianto et al, 2016). However, current regulatory guidelines and low public acceptance restrict the success of transgenic fish in many countries.…”

Section: Concluding Remarks and Future Directionsmentioning

confidence: 99%

Status of genetic and genomic approaches for delineating biological information and improving aquaculture production of farmed rohu, Labeo rohita (Ham, 1822)

Rasal

Sundaray

2020

Reviews in Aquaculture

View full text Add to dashboard Cite

Farmed rohu, Labeo rohita, is an economically important freshwater aquaculture species in south Asia. Consumer preference for this species has driven researchers to develop genetically improved rohu (Jayanti) for important traits such as growth and disease resistance. The feeding and breeding biology of rohu is well‐studied, but the physiological responses to stress or climate change at the molecular level are less understood. We summarized the genetic and advanced molecular tools used for biological insights into farmed rohu. Recently, next‐generation sequencing technology (NGS) and genome informatics have helped to identify biological questions in fish using genome, transcriptome, metagenome, proteome and epigenome sequencing. We briefly reviewed past rohu research using traditional selective breeding methods for genetic improvement, as well as the other molecular tools that have been utilized to understand the fish’s physiology, health, nutrition, stress and reproduction. We discuss the molecular techniques used in rohu, such as gene cloning and expression profiling, DNA markers, NGS, metagenomics, epigenomics, proteomics, cell culture/cell line development and transgenics. Finally, we address the future perspectives of rohu research, which may be driven by NGS and other advanced techniques like genome editing to improve rohu aquaculture production. The comprehensive information presented here will provide insights for the carp aquaculture research community.

show abstract

“…Some parameters concerning environmental and food safety have been evaluated in the last research. The parameters were reproductive performance, fatty acid and amino acid contents (Alimuddin et al 2014), proximate composition, feed conversion efficiency and ammonia excretion of GH transgenic common carp (Kurdiantho et al 2016). Meanwhile, recently there has been a report that GH transgenic salmon fish has been officially deemed safe for consumption and environment in the USA (FDA 2016).…”

Section: Introductionmentioning

confidence: 99%

Behavior, Histopathology and Physiological Responses of Rat Fed Diets Containing Growth Hormone Transgenic Fish Meal

Ali

Murtini²,

Faridah

et al. 2019

HAYATI J Biosci

Self Cite

View full text Add to dashboard Cite

The animal model response against genetically modified product may provide food safety information. This study was performed to observe behavior, histopathology and physiological responses of Wistar rat fed on the diet containing growth hormone (GH) transgenic common carp (Cyprinus carpio) meal (Ccm). Thirty rats of three-month-old (BW: 115.67–139.50g) were divided into five treatments (six rats per treatment). The treatments were rats fed on the commercial diet without Ccm (control), a re-pelleted diet containing 15% (NT-15) and 45% non-transgenic Ccm (NT-45), a re-pelleted diet containing 15% (TG-15) and 45% GH transgenic Ccm (TG-45). Rats were kept for three weeks, fed twice a day according to treatment by 30 g/day/rat and water was provided ad-libitum. Rat behavior was observed every day during feeding. Serum glutamic oxaloacetic transaminase (SGOT), serum glutamic pyvuric transaminase (SGPT), urea, and creatinine were measured at initial and the end of the experiment. Histology observation was made for liver, kidney, and brain tissues. Our results showed that behavior, histopathology, SGOT, SGPT, urea and creatinine levels of rat fed with control, NT- and TG-Ccm diets were similar. All rats survived until the end of the experiment. Thus, within the dose level of this study, GH transgenic Ccm showed no toxicity or effect on behavior and physiology of Wistar rats.

show abstract

Growth, Survival, and Body Composition of Transgenic Common Carp Cyprinus carpio 3rd Generation Expressing Tilapia Growth Hormone cDNA

Cited by 12 publications

References 30 publications

The Genetic Research Methods and its Role in Aquaculture on Indonesia

The Genetic Research Methods and its Role in Aquaculture on Indonesia

Status of genetic and genomic approaches for delineating biological information and improving aquaculture production of farmed rohu, Labeo rohita (Ham, 1822)

Behavior, Histopathology and Physiological Responses of Rat Fed Diets Containing Growth Hormone Transgenic Fish Meal

Contact Info

Product

Resources

About