Scientific Writing Lectures 2024-2025 Part 1 PDF

Summary

This document provides an introduction to scientific writing, including the aspects of research problem, questions, and objectives. The document details steps for selecting a research topic and provides examples of research problems and corresponding research questions.

Full Transcript

1. **Clear**: Easy to understand.

2. **Specific**: Focused on a single problem or issue.

3. **Researchable**: using primary and/or secondary sources.

4. **Feasible**: to answer within the timeframe and practical

4. **Complex**: enough to develop the answer over the space of a paper
or thesis.

5. **Arguable**: meaning that there are different perspectives

6. **Relevant**: to your field of study.

7. **Original**: meaning that it contributes to the existing

- **Definition**: A research problem is a broad issue or gap in
knowledge that you aim to address through your research. It
identifies what is unknown or what needs further exploration.

- **Characteristics**:

- **Contextual**: Often framed within a

- **Significance**: Highlights the importance of the issue and why it
needs to be investigated.

- **General**: It is usually more general and may encompass multiple
research questions.

- **Research Problem**: The high cost of monoclonal antibody
production limits their accessibility for therapeutic use.

- **Research Question**: How can fermentation conditions be
optimized to enhance the yield and quality of monoclonal
antibodies produced in bioreactors?

- **Research Problem**: The increasing prevalence of antibiotic
resistance in bacterial pathogens poses a significant public health
threat.

- **Research Question**: What are the mechanisms of resistance in
*E. coli* to commonly used antibiotics, and how can we inhibit
these mechanisms?

- **Definition**: It outlines the purpose of the study and what you
aim to achieve. It specifies the goals of the

- **Characteristics**:

- **Research Problem**: Despite advancements in genetic engineering,
the public remains skeptical about the safety and efficacy of
genetically modified (GM) crops, leading to low adoption rates in
some regions.

- **Research Question**: What are the key factors influencing consumer
attitudes towards genetically modified crops in urban populations?

- **Research Objective**: To analyze consumer perceptions and
knowledge about genetically modified crops through surveys and focus
groups, aiming to identify educational strategies that could enhance
acceptance.

- **Research Problem**: Traditional methods of soil remediation are
often costly and time-consuming, highlighting the need for more
efficient bioremediation techniques to address soil contamination.

- **Research Question**: How effective are specific microbial
consortia in degrading polycyclic aromatic hydrocarbons (PAHs) in
contaminated soils?

- **Research Objective**: To evaluate the degradation rates of PAHs
using different microbial consortia in laboratory settings, aiming
to identify the most effective strains for bioremediation
applications.

- **Research Problem**: While mRNA vaccines have shown promise against
infectious diseases, challenges remain in their stability and
delivery mechanisms, which can limit their effectiveness.

- **Research Question**: How do lipid nanoparticle formulations affect
the stability and cellular uptake of mRNA vaccines in different cell
types?

- **Research Objective**: To assess the impact of various lipid
nanoparticle compositions on the stability and efficacy of mRNA
delivery to target cells, with the goal of optimizing vaccine
formulations.

- **Research Problem**: Although CRISPR-Cas9 technology has
revolutionized gene editing, off-target effects pose significant
challenges for its application in therapeutic settings.

- **Research Question**: What are the most effective strategies for
minimizing off-target effects in CRISPR- Cas9 gene editing in
mammalian cells?

- **Research Objective**: To evaluate various guide RNA design
strategies and delivery methods for their impact on off-target
effects in CRISPR-Cas9 gene editing, aiming to enhance the precision
of this technology.

Steps to help you select a meaningful and engaging topic:
---------------------------------------------------------

- **Identify Your Interests**: Start with areas you are passionate
about. Reflect on your coursework, readings, or experiences that
intrigued you.

- **Review Existing Literature**: Conduct a preliminary literature
review to understand what has already been

- **Consider Relevance**: Think about the significance of your topic.
How does it contribute to your field? Does it address a current
issue or need?

- **Consult with Advisors or Peers**: Discuss your ideas with
professors, mentors, or classmates. They can offer

- **Narrow Your Focus**: Once you have a general idea, narrow it down
to a specific question or hypothesis. Ensure it's manageable within
your timeframe and resources.

- **Feasibility**: Assess whether you have access to the necessary
resources, data, and tools to conduct your research.

- **Flexibility**: Be open to adjusting your topic as you delve deeper
into your research. Sometimes, your initial idea may evolve.

- **Passion and Motivation**: Choose a topic that you find compelling,
as this will keep you motivated throughout the research process.

Common mistakes encountered during research topic selection
-----------------------------------------------------------

- **Rushing the Process**: Hurrying through the topic selection
without adequate reflection can lead to poor

- **Lack of Clarity**: Not articulating your topic clearly can lead to
confusion.

- **Neglecting the Target Audience**: Failing to consider who will
benefit from your research can result in a topic

- **Overcomplicating the Topic**: Choosing a topic that is too complex
or ambitious can lead to overwhelming challenges.

Common mistakes encountered during research topic selection
-----------------------------------------------------------

- **Avoiding Literature Review**: Skipping an initial literature
review may result in redundant research or missing critical
insights.

- **Ignoring Methodological Constraints**: Not considering the methods
available for your research can lead to impractical topics.

- **Not Considering Ethical Implications**: Ignoring ethical concerns
can lead to serious issues later.

Common mistakes encountered during research topic selection
-----------------------------------------------------------

- **Underestimating Time and Resource Needs**: Misjudging the time and
resources required for your research can lead to incomplete work. Be
realistic about what you can achieve.

- **Lack of Engagement with Existing Research**: Not engaging with the
work of others in your field can result in isolation. Use existing
research as a foundation for your topic.

- **Forgetting Practical Applications**: Neglecting to consider the
practical implications of your research can limit its impact. Think
about how your work can be applied in real-world contexts.

- **Not Seeking Diverse Perspectives**: Limiting discussions to a
narrow circle can lead to a lack of ideas. Seek input

- **Disregarding Personal Growth Opportunities**: Choosing a topic
that doesn't challenge you may hinder your development. Select
topics that push your boundaries and enhance your skills.

- #### No, there is no need to read every single journal article on the topic.

- But, make sure that you have a **comprehensive view** of the current
state of the literature (and of knowledge) in the area of research.

- Understand the current state of the literature.

- Focus on articles that are **recent, relevant and well cited**.

- Quality trumps quantity. (Golden role).


- No, you don't need to read every single word in each journal
article.

- You need to get a big picture view of what each journal article is
saying (e.g. the key questions and findings).

- Achieved via reading a few key sections in each article.

- Once you've narrowed down your focus and have a core set of highly
relevant articles, you can **dive deeper** into them, paying closer
attention to the methodology, results and its interpretation.

- You need to have a clear idea of which kind of information you need
to get in the first

- Then, focus on that aspect.

- How??

- Let's brainstorm


1. What is the question that the authors are trying to address? Why is
it important?

2. If this were my work, what kind of experimental approach can I take
in tackling the problem?

3. What kind of data would I need to generate in

4. How would this conclusion fit into my previous understanding?




**Title**

- It is the first impression that people will have of your research.

- It should be descriptive, concise, precise, focusing on the novelty
of the information presented.

- The fewest possible words that adequately describe the content.

- Each word should be chosen with care.

Types of Titles
===============

1. **Descriptive Titles**:

- #### \"Advancements in Biopharmaceutical Production Using Recombinant DNA Technology\"

- **\"Exploring the Potential of Plant-Based Vaccines in Disease
Prevention"**

2. **Interrogative Titles**

- #### \"Can Microbial Fuel Cells Provide a Sustainable Energy Source?\"

- **\"What Are the Ethical Concerns Surrounding Gene Editing in
Agriculture?" 3. Comparative Titles**:

- #### \"Comparative Analysis of Traditional Breeding and Genetic Modification in Crop

- **\"Evaluating the Performance of Biodegradable Plastics vs.
Conventional Plastics\"**

 Types of Titles
======================================

4. **Methodological Titles**

- **\"A Novel Method for Isolating High-Yield Antibiotic-Producing
Microbes\"**

- **\"Optimizing CRISPR-Cas9 Delivery Systems for Gene Editing in
Plants"**

5. **Result-Focused Titles**

- **\"Significant Increase in Insulin Production through Engineered
Yeast Strains\"**

- **\"Evidence of Enhanced Nutritional Value in Biofortified Crops"**

6. **Thematic Titles**

- **\"The Intersection of Biotechnology and Environmental
Sustainability\"**

- **\"Biotechnology in the Fight Against Infectious Diseases:
Challenges and Opportunities\"**

Types of Titles
===============

### Action-Oriented Titles

- ### \"Transforming Waste into Resources: Biotechnological Innovations for Circular Economy\"

- **\"Leveraging Biotechnology for Climate Resilience in
Agriculture\" 8. Acronym or Abbreviation Titles**

- ### \"GEM: Genomic Editing for Microbial Bioremediation Strategies\"

- **\"ABCD: Advances in Biochemical Characterization of Drug Delivery
Systems\"**

 How to craft an effective title
======================================================

1. **Identify Key Elements**

- **Main Topic**: Clearly define the subject of your research.

- **Methodology**: If your method is novel or significant, consider
mentioning it.

- **Findings/Results**: If your research has a key finding, consider
incorporating it into the title.

- **Context or Relevance**: Mention the broader implications or field
of study.

2. **Keep It Concise**

- Aim for clarity and brevity; typically, titles should be around
10-15 words.

- Avoid unnecessary jargon or overly complex language.

3. **Use Keywords**

- Incorporate important keywords to enhance searchability and
relevance in databases.

- Think about what terms researchers or practitioners might use to
find your work.

How to craft an effective title
===============================

### Choose the Right Type

- Decide on the type of title that best fits your research (e.g.,
descriptive, interrogative, thematic).

- Make sure the title reflects the nature of your study accurately.

### Consider Your Audience

- Tailor the title to your target audience, whether they are
academics, industry professionals, or the general public.

### Review and Revise

- After drafting, review your title for clarity, accuracy, and impact.

- Get feedback from peers or mentors to ensure it resonates well.


- #### Be Clear and Specific

- Use precise language that accurately reflects your research focus.

- #### Incorporate Keywords

- Include relevant keywords for better searchability and
discoverability.

- #### Keep It Concise

- Aim for a length of 10-15 words to maintain clarity and impact

- #### Use Active Voice

- Engage readers with dynamic phrasing.

- #### Highlight Methodology or Findings

- Mention innovative methods or key results if they are significant.


- #### Consider Your Audience

- Tailor the title to the knowledge level and interests of your target
readership.

- #### Use Different Title Structures

- Experiment with descriptive, interrogative, and comparative formats.

- #### Iterate and Revise

- Draft multiple versions and refine them based on feedback.

- #### Check for Uniqueness

- Ensure your title isn't too similar to existing literature.

 Tips
===========================

- #### Avoid Vagueness

- Don't use vague terms or phrases that don't clearly convey your
research.

- #### Don't Overuse Jargon

- Avoid excessive technical language that may confuse readers outside
your

- #### Refrain from Lengthy Titles

- Avoid overly long titles that dilute the message; stick to concise
wording.

- **Don't Use Abbreviations or Acronyms (e.g:** RFLP, FISH, SNP**)**

- Unless they are widely recognized, avoid abbreviations that might
not be clear to readers.

- #### Avoid Passive Voice

- Steer clear of passive constructions that can make your title less
engaging.

 Tips
===========================

- #### Don't Mislead

- Ensure the title accurately represents your research to avoid
misleading readers.

- #### Refrain from Including Unnecessary Details

- Don't clutter the title with excessive information; focus on the key
elements.

- #### Don't Ignore the Research Context

- Avoid titles that don't situate your work within a broader research
context.

- #### Neglecting Final Review

- Don't skip the final evaluation of your title after completing your
research.

 Lets brainstorm
======================================

- #### \"An Investigation into the Various Ways in Which Different Types of Microorganisms Can Be Utilized for a Range of Biotechnological Applications in Agriculture, Medicine, and Environmental Remediation\"

- Overly lengthy and too broad; lacks focus.

- #### \"A Comprehensive Study of the Effects of Genetic Modification Techniques on the Growth and Development of Various Plant Species Across Different Environmental Conditions\"

- Wordy and not specific enough about which plants or conditions.

 Lets brainstorm
======================================

- #### Exploring the Potential Benefits and Risks Associated with the Use of Advanced Gene Editing Technologies in Diverse Fields Such as Agriculture, Medicine, and Industrial Biotechnology\"

- Unfocused and tries to cover too many areas without depth.

- #### \"Analyzing the Impact of Synthetic Biology Innovations on the Future of Global Food Production, Climate Change Mitigation, and Sustainable Development Goals\"

- Extremely broad and lacks a clear research question.

- #### \"A Detailed Examination of the Role of Various Biotechnological Processes in the Production of Pharmaceuticals, Biofuels, and Biodegradable Plastics in the Modern Economy\"

- Too many topics combined, making it hard to grasp the main focus.

Lets brainstorm
===============

- #### Engineering Bacterial Strains for Enhanced Biodegradation of Environmental Pollutants\"

- Clear focus on a specific application and organism.

- #### \"Optimization of CRISPR-Cas9 Techniques for Targeted Gene Editing in Human Stem Cells\"

- Specifies the method and its application in a particular context.

- #### \"Harnessing Plant-Microbe Interactions to Improve Crop Resilience Against Climate Stress\"

- Highlights the interaction and its practical implications in
agriculture.

- #### \"Development of Bioinformatics Tools for Predicting Protein-Protein Interactions in Synthetic Biology\"

- Clearly outlines the purpose and area of research.

 Lets brainstorm
======================================

#### \"Evaluating the Potential of Microalgae as Sustainable Feedstocks for Biofuel Production\"

- Focuses on a specific organism and its sustainable application.

#### \"Development of a Biosensor for Real-Time Detection of Pathogenic Bacteria in Food Products\"

- #### \"Application of Synthetic Biology in the Production of Anticancer Compounds from Engineered Yeast\"

- Specific about the organism and its therapeutic application.

- #### \"Impact of Genetic Engineering on the Nutritional Value of Staple Crops: A Case Study of Golden Rice\"

- Focuses on a specific crop and its enhanced nutritional aspect.

Authors and their affiliations
==============================

- Department, Faculty/institute, University, City, Country

 Abstract
===============================

- The abstract is a condensed version of the research article in its
entirety.

- Reflect the structure and the novelty of the work.

- It allows readers to judge whether it is relevant to their own
research interests therefore, worthwhile reading the research
article itself.

- Be fully understandable on its own (stand alone).

- Length: 100-250 words as a single paragraph.

- Graphical abstracts are visual representations of the key findings
or the concept of a research study.

- They serve to summarize the main points of a paper in a clear,
concise manner, making it easier for readers to grasp the essence of
the research at a glance.

- **Key Features of Graphical Abstracts**

- **Simplicity**: Focus on the main findings or concepts without
overwhelming detail.

- **Clarity**: Use clear visuals and minimal text to convey the
message.

- **Visual Appeal**: Utilize colors, shapes, and layouts that are
aesthetically pleasing and easy to read.

- **Relevance**: Ensure that the visuals directly relate to the
research question and findings.


1. #### Identify Key Messages:

- Determine the main findings or conclusions of your research.
What do you want the audience to remember?

2. #### Choose a Format:

- Decide whether to use a flowchart, diagram, infographic, or
another visual format that best represents your data.

3. #### Sketch a Layout:

- Plan the arrangement of elements (images, text, graphs) to
ensure a logical flow of

4. #### Select Visual Elements:

- Use icons, charts, or images that represent your findings. Make
sure they are relevant and easy to understand.

Steps to Create a Graphical Abstract

#### Keep Text Minimal:

- Use short phrases or bullet points instead of long sentences. The
graphical abstract should

#### Use Colors Wisely:

- Choose a color scheme that is professional and enhances readability.
Avoid overly bright or distracting colors.

- #### Design and Software Tools:

- Use graphic design software or online tools like Adobe Illustrator,
Canva, or BioRender. These tools offer templates and features
tailored for creating scientific graphics.

- #### Review and Revise:

- Get feedback from colleagues or mentors to ensure clarity and
effectiveness. Revise the

- #### Finalize:

- Ensure the graphical abstract meets any specific guidelines set by
the journal or platform where you intend to publish.


DO
--

- Keep it brief

- Use short sentences with varied structure

- Use appropriate voice (active voice)

- Use appropriate tense

- Formal academic tone

DON'T (Avoid)
-------------

- Lengthy background information

- Citations

- Details about routine laboratory procedures

- Details about the statistical methods or software used

- Undefined abbreviations or acronyms

- Results not discussed in the text

- Repetition and filler words

- Typo and punctuation errors

- Poor grammar


- These keywords help potential readers find your paper during their
own literature searches.

- 5-7 words

- Consider the point of view of the reader. What keywords would the
reader search for that would help retrieve your article?

- Use multi-word 'key phrases' where possible. single word keywords
are acceptable, but they may lead to many false matches.

- Focus on terms related to the main topic of your research.

- Test your keywords

- Test your keywords and see how many results you get.

- If you get too many results, your keywords may be too broad or
common.

- If you get too few results, your keywords may be too narrow or
specific.

- You can also compare your keywords with those used by other
articles in your field

 Introduction
====================================

- Introduction is regarded as the start of the
storyline of the

- The methods section is critical because the
procedures adopted determines the reliability of the results
obtained and the analyses of the findings made.

- It informs the readers how data collection was done since the
methods used affects results.

- It clearly expresses the reasons for choosing a specific technique
or procedure among other different methods that could be used to
investigate a research problem.

- It illustrates the appropriateness of the procedures and methods in
achieving the overall aims of the study.

Structure of the Materials &Methods section

- This subsection describes the participants involved in the research
study:

1. Their number

2. Sample size calculation

3. From where did we get those patients?

4. Inclusion and exclusion criteria

5. Data collection methods

6. Patient consent

7. Ethical approval

- Use an academic tone.

- Borrow a leaf from others.

- Be descriptive but avoid unnecessary details.

- Assume the reader's view.

- Cite published methods instead of writing them in full details.

- Provide a context for the methods section (justify the choices
made in the methods by using language that show intents, purpose
and aim).

- Use subheadings to structure the methods
section

- Mention the ethical approval given by the

- Use the past tense.

- Use passive voice.

- Consider the choice of words.

- Mention the statistical analyses used.

- Provide the source for the materials
used.

- Proofread.