This sequence accurately describes the flow of electrons in photosynthesis:
H2O → photosystem II → photosystem I → NADP
In photosynthesis, electrons flow from water molecules to photosystem II, then to photosystem I, and finally to NADP+ ultimately producing NADPH. Along the way, the electrons generate a proton gradient that drives ATP production.
Template Sequence
Proteins lacking an ER signal sequence will not be translocated into the endoplasmic reticulum (ER) for proper folding. Instead, they will remain in the cytoplasm, where they may either function as cytoplasmic proteins or be targeted for degradation by the proteasome if they are misfolded or damaged.
The sequence from 3 to 7 can be described as consecutive integers.
To identify introns and exons in a sequence, one can use bioinformatics tools that analyze the sequence for specific patterns and characteristics associated with introns and exons. These tools can identify regions with known splice sites, coding sequences, and non-coding sequences to differentiate between introns and exons. Additionally, comparing the sequence to a reference genome can help in identifying these regions accurately.
In photosynthesis, electrons flow from water molecules to photosystem II, then to photosystem I, and finally to NADP+ ultimately producing NADPH. Along the way, the electrons generate a proton gradient that drives ATP production.
development of agriculture then job specialization then social stratification
solar energy → potential energy stored in electrons and ATP → chemical energy stored in sugars
Unfortunately, it is impossible to tell accurately where a star is on the main sequence.
Job specialization, then development of agriculture, then social stratification
We can't answer this accurately without knowing the sequence.
Template Sequence
Template Sequence
In a pattern rule, a 'term' refers to an individual element or number within a sequence. For example, in the sequence 2, 4, 6, 8, each of these numbers is a term. The pattern rule describes how to generate the terms based on a specific relationship or formula, such as adding a constant value. Understanding terms is essential for identifying and continuing the sequence accurately.
It is a 'term'
A change in the nucleotide sequence of a gene
Proteins lacking an ER signal sequence will not be translocated into the endoplasmic reticulum (ER) for proper folding. Instead, they will remain in the cytoplasm, where they may either function as cytoplasmic proteins or be targeted for degradation by the proteasome if they are misfolded or damaged.