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prompt_entity_gsd_chunk = """
# CONTEXT #
In my capacity as a genomics specialist, I have recently completed the review of a scholarly publication. I am interested in extracting specific genomic information, or entities, from the body of the paper. 
To facilitate this process, I have constructed a predefined schema that outlines the desired entities and their corresponding description.

This is the schema provided:

{{
    "Genes" : {{
        "type" : "list of strings",
        "description" : "All relevant genes mentioned in the text. Gene names can only contain uppercase letters and digits."
    }},
    "SNPs" : {{
        "type" : "list of strings",
        "description" : "Unique identifier associated with each value in Genes schema. These identifiers typically begin with 'rs' and appear near the gene name in the text."
    }},
    "Diseases" : {{
        "type" : "list of strings",
        "description" : "Type of diseases that related to each value in Genes, typically appear near the gene name in the text."
    }}
}}

Note that the values within each list of Genes, SNPs, and Diseases columns correspond directly to each other. Consequently, the lengths of these lists must be identical. 

This is a passage from the paper: {docs} 

# OBJECTIVE #
Given a predefined schema outlining relevant entities, meticulously extract these entities from the provided text passage. Exercise caution when handling the reference section of the document, abstain from extracting information from this section. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility. If an entity is entirely absent from the passage, just leave the corresponding field blank with an empty string ('').

# RESPONSE #
The extracted information will be utilizing the JSON format. Information within strings will be demarcated by double quotes (" "), while quotes contained within strings will be denoted by single quotes (' '). List data will be enclosed within square brackets ([]).
This is the example of the respose:

{{
    "Genes": ["A", "B", "C"],
    "SNPs": ["rs1", "rs2", "rs3"],
    "Diseases": ["X", "Y", "Z"]
}}

If there is no specific extracted entities, just leave the corresponding field blank with an empty lists ([]).
"""

prompt_entity_gsd_combine = """
# CONTEXT #
In my role as a genomics specialist, I have extracted specific entities from a scholarly publication. These entities were identified and retrieved from various sections throughout the document. My current objective is to consolidate this extracted information into a concise summary, facilitating a comprehensive understanding of the publication's key findings. 
To achieve this, I have constructed a predefined schema that outlines the desired entities and the methods for their summarization.

{{
    "Genes" : {{
        "type" : "list of strings",
        "description" : "Identify the most relevant gene from the compiled gene list across all sections."
    }},
    "SNPs" : {{
        "type" : "list of strings",
        "description" : "Upon completion of the gene combination process, associate each resulting value with its unique identifier."
    }},
    "Diseases" : {{
        "type" : "list of strings",
        "description" : "Upon completion of the gene combination process, associate each resulting value with its diseases."
    }}
}}

This is a set of summaries: {doc_summaries} 

If there is no extracted entities, just leave the corresponding result with an empty list ([]) later.

# OBJECTIVE #
In the context of a predefined schema that specifies entities and their corresponding operations, construct a comprehensive synopsis that incorporates all critical details gleaned from each section. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility.

# RESPONSE #
The extracted information will be utilizing the JSON format. Information within strings will be demarcated by double quotes (" "), while quotes contained within strings will be denoted by single quotes (' '). List data will be enclosed within square brackets ([]).
This is the example of the respose:

{{
    "Genes": ["A", "B", "C"],
    "SNPs": ["rs1", "rs2", "rs3"],
    "Diseases": ["X", "Y", "Z"]
}}
"""

prompt_entity_summ_chunk = """
# CONTEXT #
In my capacity as a genomics specialist, I have recently completed the review of a scholarly publication. I am interested in extracting the summary from the body of the paper.

This is a passage from the paper: {docs} 

# OBJECTIVE #
Extract the summary or the conclusion from the provided text passage. Exercise caution when handling the reference section of the document, abstain from extracting information from this section. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility.

# RESPONSE #
Provide the information in a concise way, using four concise paragraphs. The text should be presented in a continuous format, omitting introductory elements like numbers or titles within each paragraph.

1. Overview. Explanation of the provided documents and their exploration of the genetic underpinnings of the disease, and understanding of genetic factors in disease pathology.
2. Main Themes. Identification of genetic variants and mutations contributing to disease susceptibility. Role of specific genes and genetic pathways in disease development and progression.
3. Key Genetic Factors and Their Implications. Highlighting specific genes or genetic variants associated with the disease. Discussion of how these genetic factors may influence disease susceptibility, severity, or treatment response.
4. Conclusion. Recap of the key findings regarding genetic factors and disease mechanisms. Suggestions for future research directions or clinical applications based on the insights gained from genetic analysis.
"""

prompt_entity_summ_combine = """
# CONTEXT #
In my role as a genomics specialist, I have extracted some summaries from a scholarly publication. These summaries were identified and retrieved from various sections throughout the document. 
My current objective is to consolidate this extracted information into a concise summary, facilitating a comprehensive understanding of the publication's key findings. 

This is a set of summaries: {doc_summaries} 

# OBJECTIVE #
Construct a comprehensive synopsis that incorporates all critical details gleaned from the summaries of each section. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility.

# RESPONSE #
Provide the information in a concise way, using four concise paragraphs. The text should be presented in a continuous format, omitting introductory elements like numbers or titles within each paragraph.. 

1. Overview. Explanation of the provided documents and their exploration of the genetic underpinnings of the disease, and understanding of genetic factors in disease pathology.
2. Main Themes. Identification of genetic variants and mutations contributing to disease susceptibility. Role of specific genes and genetic pathways in disease development and progression.
3. Key Genetic Factors and Their Implications. Highlighting specific genes or genetic variants associated with the disease. Discussion of how these genetic factors may influence disease susceptibility, severity, or treatment response.
4. Conclusion. Recap of the key findings regarding genetic factors and disease mechanisms. Suggestions for future research directions or clinical applications based on the insights gained from genetic analysis.
"""

prompt_entities_chunk = """
# CONTEXT #
In my capacity as a genomics specialist, I have recently completed the review of a scholarly publication. I am interested in extracting specific genomic information, or entities, from the body of the paper. 
To facilitate this process, I have constructed a predefined schema that outlines the desired entities and their corresponding description.

This is the schema provided:

{{
    "Population" : {{
        "type" : "string",
        "description" : "Population / race used by the author in the given text."
    }},
    "Sample Size" : {{
        "type" : "string",
        "description" : "Sample size of the population used in the research that mentioned in the paper."
    }},
    "Study Methodology" : {{
        "type" : "string",
        "description" : "Study methodology mentioned in the text."
    }},
    "Study Level" : {{
        "type" : "string",
        "description" : "Study level mentioned in the text."
    }}
}}

This is a passage from the paper: {docs} 

# OBJECTIVE #
Given a predefined schema outlining relevant entities, meticulously extract these entities from the provided text passage. Exercise caution when handling the reference section of the document, abstain from extracting information from this section. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility. If an entity is entirely absent from the passage, just leave the corresponding field blank with an empty string ('').

# RESPONSE #
The extracted information will be utilizing the JSON format. Information within strings will be demarcated by double quotes (" "), while quotes contained within strings will be denoted by single quotes (' ').
This is the example of the respose:

{{
    "Population": "South Asian",
    "Sample Size": "403 Relatively Small",
    "Study Methodology": "Double-Blind Randomized Controlled Trial",
    "Study Level": "Postdoctoral"
}}

If there is no specific extracted entities, just leave the corresponding field blank with an empty string ("").
"""

prompt_entities_combine = """
# CONTEXT #
In my role as a genomics specialist, I have extracted some summaries from a scholarly publication. These summaries were identified and retrieved from various sections throughout the document. My current objective is to consolidate this extracted information into a concise summary, facilitating a comprehensive understanding of the publication's key findings. 

This is a set of summaries: {doc_summaries} 

If there is no extracted entities, just leave the corresponding result with an empty string ("") later.

# OBJECTIVE #
Construct a comprehensive synopsis that incorporates all critical details gleaned from the summaries of each section. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility.

# RESPONSE #
The extracted information will be utilizing the JSON format. Information within strings will be demarcated by double quotes (" "), while quotes contained within strings will be denoted by single quotes (' ').
This is the example of the respose:

{{
    "Population": "South Asian",
    "Sample Size": "403 Relatively Small",
    "Study Methodology": "Double-Blind Randomized Controlled Trial",
    "Study Level": "Postdoctoral"
}}
"""

prompt_entity_one_chunk = """
# CONTEXT #
In my capacity as a genomics specialist, I have recently completed the review of a scholarly publication. I am interested in extracting specific genomic information, or entities, from the body of the paper. To facilitate this process, I have constructed a predefined schema that outlines the desired entities and their corresponding description.

This is the schema provided:

{{
    "Title" : {{
        "type" : "string",
        "description" : "Title of the given text."
    }},
    "Authors" : {{
        "type" : "string",
        "description" : "Authors / writers of the given text. To maintain readability, consider only the first 10 author names, ensuring the other key informations and response format are clear."
    }},
    "Publisher Name" : {{
        "type" : "string",
        "description" : "Publisher name of the given text."
    }},
    "Publication Year" : {{
        "type" : "string",
        "description" : "The year when the given text published."
    }},
}}

This is a passage from the paper: {} 

# OBJECTIVE #
Given a predefined schema outlining relevant entities, meticulously extract these entities from the provided text passage. 
IMPORTANT: It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility. If an entity is entirely absent from the passage, just leave the corresponding field blank with an empty string ('').

# RESPONSE #
The extracted information will be utilizing the JSON format. Information within strings will be demarcated by double quotes (" "), while quotes contained within strings will be denoted by single quotes (' ').
This is the example of the respose:

{{
    "Title": "Lorem Ipsum",
    "Authors": "John Doe, Jane Doe, Alias",
    "Publisher Name": "Journal of Internal Medicine",
    "Publication Year": "2024"
}}

If there is no specific extracted entities, just leave the corresponding field blank with an empty string ("").
"""

prompt_table = """
# CONTEXT #
In my capacity as a genomics specialist, I have table data obtained from a published research paper in the field of genomics. The data is provided in a list of JSONs format, with each JSON object representing a single row in a tabular structure. The first JSON element in the list represents the header row of the table, containing the names of each column.
This is the data:
{}

# OBJECTIVE #
Given the provided table data, the following tasks need to be completed:

1. Identify all unique gene names present within the table. Each row can contains more than one gene name.
2. If present, extract any entries starting with "rs" (presumably representing Single Nucleotide Polymorphisms or rsIDs) that correspond to the same row as their associated gene names. Each gene name can correspond with more than one SNPs.
3. If available, extract any disease information associated with both the gene name and its corresponding SNP/rsID.

It is crucial to maintain the utmost accuracy in this process, as any false or fabricated information (hallucination) can have severe consequences for academic integrity and research credibility.
If an SNPs or Diseases is absent from the table, leave the corresponding field blank with an empty string ('').

# RESPONSE #
The output should only be a string containing list of JSON objects, each representing an entry with the following structure:
[
    {{
        "Genes": "A",
        "SNPs": ["rs123", "rs456"],
        "Diseases": "A disease"
    }}
]

If there is no specific extracted entities provided from the table, just leave the response with an empty lists ([]).
"""

prompt_validation = """
# CONTEXT #
In my capacity as a genomics specialist, I have table data containing gene names with its corresponding SNPs and diseases. The data is provided in a list of JSONs format, with each JSON object representing a single row in a tabular structure. 
The problem is because the data is extracetd using OCR, some gene names and SNPs maybe have a typo.

This is the data:
{}

# OBJECTIVE #
Given the provided table data, the following tasks need to be completed:

1. Check whether the gene name is a correct gene name. If the gene name is suspected to be a typo, fix it into a correct form. If not, eliminate this row data because the gene name is not valid. 
2. If diseases not empty, check whether the gene name is correspond with the gene names. Fix it with the correct diseases if the original disease is wrong.

# RESPONSE #
The output should only be a string containing list of JSON objects, each representing an validated entry with the following structure:
[
    {{
        "Genes": "A",
        "SNPs": "rs123",
        "Diseases": "A disease"
    }}
]
"""