QQ空间
新浪微博
微信扫一扫简介
目录
- Preface
- Golden pompano Trachinotus ovatus (Linnaeus, 1758) belongs to the family of Carangidae and is widely cultured in the Asian-Pacific region. Due to fast growth, high flesh quality and suitabil...
- Chapter 1 Ontogenetic development of the digestive functionally in Trachinotus ovatus
- In marine fish aquaculture, the larval stage has been considered the major “bottleneck” limiting fingerling supply to the grow-out facilities (Tucker, 1998). Massive mortality normally occur...
- Chapter 2 Food ingestion, consumption, and selectivity of pompano, Trachinotus ovatus under different rotifer densities
- At hatching, most of marine fish larvae exhibit an immature status of the digestive system (Falk-Petersen, 2005), external factors such as temperature, water characteristics and larval feedi...
- Experiment Ⅰ: Larval fish growth, gut content analysis, food consumption, and food utilization of larval pompano under different rotifers densities
- Experiment Ⅱ: Food selectivity of larval pompano under different rotifers density
- Experiment Ⅲ: Effect of tank color, rotifer color on the food ingestion of larval pompano
- Chapter 3 Weaning time regulates the performance of Trachinotus ovatus larvae
- At hatch, the digestive system of most marine fish larvae is immature and will go through major changes over time before becoming fully functional for food digestion (Cahu and Zambonino-Infa...
- Chapter 4 Jaw malformation of hatchery reared Trachinotus ovatus larvae
- Skeletal anomalies have been considered a limiting factor in the commercial production of marine finfish (Koumoundouros, et al., 1997; Daoulaset al., 1991; Fernandez et al., 2008). Skeletal ...
- Chapter 5 Osteological ontogeny and malformations in Trachinotus ovatus
- Skeleton malformations associated with poor growth and low survival rate are a major bottleneck in the production of juvenile marine finfish (Kihara et al., 2002; Sfakianakiset al., 2004; Ma...
- Chapter 6 Temperature affects the growth, survival and skeletal deformity of Trachinotus ovatus larvae
- Temperature is important for the early development of fish larvae because it can regulate fish metabolism and feeding behavior (Kestemont and Baras, 2001; Ma, 2014). In aquaculture, temperat...
- Chapter 7 Nutrition enrichment regulates the rearing performance of Trachinotus ovatus larvae
- Malformation has an adverse impact on the market value of marine fish (Cobcroft and Battaglene, 2009; Sandel et al., 2010; Cobcroft and Battaglene, 2013; Ma et al., 2014c). Malformed fish ar...
- Chapter 8 The ontogenic expressions of BMP and IGF genes in Trachinotus ovatus larvae
- Bone morphogenetic proteins (BMPs) belong to the transforming growth factor-βsuper family and can induce ectopic bone formation in rodents (Chen et al., 2004). BMPs are functionally and stru...
- Chapter 9 IGF genes in Trachinotus ovatus larvae
- Insulin-like growth factors (IGFs) represent a group of polypeptide hormones that affect a variety cellular processes such as metabolic regulation, cell growth and differentiation, and maint...
- Cloning and sequencing of golden pompano IGF Ⅰ and IGF Ⅱ cDNA
- Growth and jaw deformity of golden pompano larvae
- The expression of IGF Ⅰ and IGF Ⅱ during the ontogenetic development of golden pompano larvae
- Response of IGFs to water temperature
- Responses of IGFs to nutrients manipulation
- The expression of IGFs from 0 DPH to 18 DPH
- Response of IGFs to water temperature
- Responses of IGFs to nutrients manipulation
- Chapter 10 Water temperature induces jaw deformity and bone morphogenetic proteins (BMPs) gene expression in Trachinotus ovatus larvae
- Temperature is a primary factor affecting early development of fish larvae, and it can regulate fish metabolism and feeding behavior during fish ontogeny (Kestemont and Baras, 2001; Ma, 2014...
- Total RNA extraction and reverse transcription
- Gene cloning
- Gene expressions analysis by quantitative real-time PCR
- Growth performance, survival and jaw deformities
- Expression of BMPs in fish at different temperatures
- Growth and survival of fish larvae
- Temperature and jaw malformation
- BMPs genes expression at different temperatures
- Appendix 1 Partial sequences of BMP2
- Appendix 2 Partial sequences of BMP4
- Appendix 3 Partial sequences of BMP5
- Appendix 4 Partial sequences of BMP10
- Chapter 11 Response of the bone morphogenetic proteins (BMPs) gene in Trachinotus ovatus fed Artemia nauplii with different enrichments
- Skeleton malformation is a major bottleneck continually hindering the production of marine fish fingerlings (Sandel et al., 2010; Cobcroft and Battaglene, 2013; Ma et al., 2014c). Malformed ...
- Chapter 12 Retinoid X receptor (RXR) gene in golden pompano Trachinotus ovatus
- Malformation has adverse impact on the market value of marine fish (Cobcroft and Battaglene, 2009; Sandel et al., 2010; Cobcroft and Battaglene, 2013; Ma et al., 2014d). Malformed fish are u...
- Chapter 13 Indian hedgehog gene in Trachinotus ovatus larvae
- The Hedgehog (Hh) gene family codes for a class of secreted proteins that act in a signaling pathway to transmit information for cell differentiation in embryogenesis and development in both...
- Chapter 14 Sox5, Sox8 and Sox9 genes in Trachinotus ovatus larvae
- The Sox gene family was initially recognized in 1990 as a set of genes correlated to the mammalian testis determining factor Sry based on conservation of the single HMG box, which encodes a ...
- Chapter 15 Twist gene in Trachinotus ovatus larvae
- Twist protein containing a basic helix-loop-helix (bHLH) structure belongs to the nuclear transcription factors. Twist protein plays a critical role in cell type determination and differenti...
- Chapter 16 Intestinal fatty acid binding protein gene in Trachinotus ovatus larvae
- The fatty acid binding proteins (FABPs) belong to a multigene family of 14-16kDa molecular mass and bind long chain fatty acids in both vertebrates and invertebrates (Alvite et al., 2008; Bo...
- Chapter 17 Heart-type fatty acid binding protein gene in Trachinotus ovatus
- Most fishes rely on lipids as a main energy resource. Indeed, teleost fish show concentrations of plasma lipoproteins twice higher than mammals, pointing out a probable difference in lipid u...
- Cloning and sequencing of golden pompano heart fatty acid binding protein (H-FABP) gene cDNA
- Multiple sequence alignments and phylogenetic analysis
- Ontogenetic expression of H-FABP gene in golden pompano larvae
- Tissue expression of H-FABP gene in golden pompano
- Response of H-FABP gene to water temperature
- Response of H-FABP gene to nutrition manipulation
- Appendix 1
- Chapter 18 Liver-type fatty acid-binding protein gene in Trachinotus ovatus larvae
- The fatty acid binding proteins (FABPs) belong to a multigene family of 14-16kDa molecular mass that bind long chain fatty acids in both vertebrates and invertebrates (Alvite et al., 2008; B...
- Chapter 19 Follistatin-related protein gene in Trachinotus ovatus larvae
- Follistatin domain containsa large group of proteins with a highly-conserved module of cysteine-rich sequence including follistatin, follistatin-related protein (FSRP), agrin, secreted prote...
相关图书
Books
百科热词
Words
