Andrew E. Christie

What is he best known for?

The fields of study he is best known for:

• Gene
• Crustacean
• Neuron

His primary scientific interests are in Crustacean cardioactive peptide, Bursicon, Endocrinology, Peptide and Allatostatin. Crustacean cardioactive peptide combines with fields such as In silico, Expressed sequence tag, Computational biology and Proctolin in his work. His Proctolin research incorporates elements of Stomatogastric ganglion, Neuromodulation and Neuron, Stomatogastric nervous system.

His Endocrinology research integrates issues from Neuropeptide, Corazonin and Cell biology. His Neuropeptide study is focused on Biochemistry in general. As part of one scientific family, Andrew E. Christie deals mainly with the area of Peptide, narrowing it down to issues related to the Mass spectrometry, and often Homarus.

His most cited work include:

• Different proctolin neurons elicit distinct motor patterns from a multifunctional neuronal network. (146 citations)
• Different proctolin neurons elicit distinct motor patterns from a multifunctional neuronal network. (146 citations)
• Mass spectrometric investigation of the neuropeptide complement and release in the pericardial organs of the crab, Cancer borealis (123 citations)

What are the main themes of his work throughout his whole career to date?

Andrew E. Christie mostly deals with Neuropeptide, Endocrinology, Allatostatin, Biochemistry and Crustacean cardioactive peptide. His Neuropeptide study combines topics in areas such as Cancer productus, Cell biology, Stomatogastric ganglion, Homarus and Gene isoform. His Stomatogastric ganglion study also includes fields such as

• Stomatogastric nervous system most often made with reference to Neuropil,
• Neuromodulation that connect with fields like Neuron and Histaminergic.

His work deals with themes such as FMRFamide, Cancer and Peptide sequence, which intersect with Endocrinology. His Biochemistry study focuses on Peptide in particular. Among his Crustacean cardioactive peptide studies, you can observe a synthesis of other disciplines of science such as Bursicon, Corazonin, Proctolin, In silico and Expressed sequence tag.

He most often published in these fields:

• Neuropeptide (45.16%)
• Endocrinology (36.77%)
• Allatostatin (29.03%)

What were the highlights of his more recent work (between 2015-2021)?

• Allatostatin (29.03%)
• Homarus (25.81%)
• Transcriptome (17.42%)

In recent papers he was focusing on the following fields of study:

His primary areas of study are Allatostatin, Homarus, Transcriptome, Neuropeptide and Cell biology. His Allatostatin study spans across into areas like Bursicon and Crustacean cardioactive peptide. Andrew E. Christie integrates Crustacean cardioactive peptide with Endocrinology in his research.

His study in Homarus is interdisciplinary in nature, drawing from both Eyestalk and Neuroscience, Ganglion. His Transcriptome research includes elements of Ecology and In silico. The study incorporates disciplines such as Receptor, Peptide and Gene isoform in addition to Cell biology.

Between 2015 and 2021, his most popular works were:

• Prediction of a neuropeptidome for the eyestalk ganglia of the lobster Homarus americanus using a tissue-specific de novo assembled transcriptome. (35 citations)
• Prediction of Scylla olivacea (Crustacea; Brachyura) peptide hormones using publicly accessible transcriptome shotgun assembly (TSA) sequences. (29 citations)
• Peptidergic signaling in the crab Cancer borealis: Tapping the power of transcriptomics for neuropeptidome expansion. (26 citations)

In his most recent research, the most cited papers focused on:

• Gene
• Crustacean
• Amino acid

Cell biology, Transcriptome, Crustacean cardioactive peptide, Allatostatin and Neuropeptide are his primary areas of study. The various areas that he examines in his Cell biology study include Receptor, Calanus finmarchicus, Eyestalk and Homarus. His Receptor study integrates concerns from other disciplines, such as Nervous system, Gene, Stomatogastric ganglion, Central pattern generator and Peptide.

His Transcriptome research is multidisciplinary, relying on both Ecology, Pelagic zone, Ecosystem and Transcription factor. His Crustacean cardioactive peptide research encompasses a variety of disciplines, including Corazonin, Bursicon and Endocrinology. His Endocrinology research includes themes of Peptide sequence and In silico.

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